ES2687290T3 - Projectile - Google Patents

Abstract

Projectile (1), with a projectile sheath, which forms a penetrating body (2), which has an interior space (3) filled with explosive substance (4), in which the penetrating body (2) presents at its rear end projections (9) pointing radially outward, in which a flange (7) that surrounds the penetrating body (2) is retained in positive connection, in which the flange (7) has at least one theoretical point of breakage that causes a destruction of the flange (7) when the penetrating body (2) strikes and / or penetrates a target, a projection (9) of the penetrating body (2) has an inclined outer surface (11) with respect to the longitudinal axis of the projectile (1) with a diameter that increases towards the rear end of the projectile (1), the projection (9) of the penetrating body (2) has a rear contact surface (10) and a forward surface (12) inclined with respect to to the longitudinal axis of the projectile (1), and between the front surface (12) inclined with respect to the longitudinal axis of the projectile (1) of the projection (9) and the flange (7) a free space (13) is formed.

Description

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DESCRIPTION

Projectile

The invention relates to a projectile, with a projectile sheath, which forms a penetrating body, which has an interior space filled with explosive substance.

The projectiles known from DE 21 11 736 A1 are used as ammunition for tube guns, for example for machine guns, for example to combat infrastructure targets. Conventional shells have a subcalibrated penetrating body, which is normally fired by means of a drive diaphragm from a tube gun. The delivery diaphragm, which may be constituted, if necessary, by several segments, serves to seal the tube. The drive diaphragm forms a larger active surface for the gas pressure, so that a higher velocity in the mouth can be given to the undercalibrated penetrating body. After leaving the tube, in a conventional projectile, the elements of the delivery diaphragm are detached and move uncontrollably, for example in lateral directions. In certain employment situations, for example in applications-MOUT (Military Operations in Urban Terrain = Military Operations in Urban Terrain), due to the surrounding flight of the drive diaphragm segments, in unfavorable circumstances, however, a Threat to the shooter.

Therefore, the invention has the task of indicating a projectile, in which a threat is avoided through the elements detached from the drive diaphragm.

For the solution of this task, in a projectile of the type mentioned at the beginning, it is provided according to the invention that the penetrating body has projections pointing radially outwards at its rear end, in which a flange surrounding the flange is retained in positive connection. penetrating body

Unlike a conventional projectile, the projectile according to the invention has no drive diaphragm in the area of its rear end, which otherwise serves to seal the tube and forms a larger active surface for the projectile gases. Instead, the rear end of the projectile according to the invention has a flange, whose rear axial surface forms the active surface for projectile gases. In this case it is essential that the flange surrounding the penetrating body is configured so that it does not come off immediately after leaving the mouth of the tube, but only when the penetrating body hits a target and passes through it. Only after hitting a target does the tab detach during penetration, so that only the penetrating body penetrates the target. The flange is not attached, therefore, fixedly with the penetrating body, but is only retained in positive union in the penetrating body. When the penetrating body penetrates the target, the flange emerges, which in this case decomposes into several segments.

In the projectile according to the invention it is preferred that at least one radially extending contact surface is formed between the projections of the penetrating body and the flange. This contact surface generates a positive bond, so that the pressure generated by the impulse gases is transmitted through the flange on the projections of the penetrating body, thereby accelerating the undercalibrated penetrating body.

A preferred embodiment of the projectile according to the invention provides that the penetrating body has several projections spaced apart from one another in the longitudinal direction and / or in the circumferential direction. It is possible for a projection to extend over the entire periphery and thus be configured circularly or annularly. Alternatively, the penetrating body may also have several projections arranged distributed on the periphery and spaced apart from one another, for example two, three or four such projections. Alternatively or additionally, several series of projections arranged in the longitudinal direction of the penetrating body can be provided. The projections are preferably formed of the type of tooth and are distanced from the cylindrical penetrating body radially outwards. A projection of a projectile according to the invention also has an outer surface inclined with respect to the longitudinal axis of the projectile with a diameter that increases towards the rear end of the projectile. When the penetrating body collides, the flange is divided into several parts or fragments, as soon as the dilatation of the flange is reached, which is caused by the comparatively flat angle of the inclined outer surface of the projection with respect to to the longitudinal axis of the projectile. Then the penetrating body penetrates without the back flange on the target.

In a projectile according to the invention, a projection of the penetrating body has the aforementioned inclined outer surface, a rear contact surface and an inclined front surface with respect to the longitudinal axis of the projectile. In this way, a projection can be configured with the type of fins and can be distanced from the penetrating body radially outwards. According to the invention, in addition, a free space is formed between the inclined front surface with respect to the longitudinal axis of the projectile and the flange. After the destruction or decomposition of the flange when it hits a target, the fragments or segments of the flange come into contact with the front surface, inclined with respect to the longitudinal axis of the projectile, of the projection, which has a comparatively steep angle, which causes a rapid detachment

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of fragments or segments outside the path of the penetrating body.

In the lock according to the invention it is preferred that the tab be configured of several parts and / or segmented. The plurality of the segments or parts are fixed by an appropriate retention means, for example a front ring and / or a rear ring, until the flange detaches when the penetrating body hits the target.

In the projectile according to the invention, the flange has at least one theoretical point of breakage that causes a breakdown of the flange when the penetrating body strikes and / or penetrates the target. A theoretical break point can be configured for example as a recess or as a weakening of the material in the form of a notch, a groove or the like. In this way a predefined break point is created, which causes the flange to be divided into several segments and detached from the penetrating body path.

With respect to the material of the projectile according to the invention it is preferred that the flange is made of a light metal alloy, especially an aluminum alloy. Alternatively, the flange may be constituted of a fiber composite material, which preferably contains carbon fibers and / or glass fibers.

Preferably, the front tab is configured similar to the rear tab.

The projectile according to the invention may have a fuze or a time fuze to ignite the explosive substance housed in the interior space of the penetrating body. The fuze is preferably arranged at the front or rear end of the interior space and / or closes the interior space.

In addition, a projectile may be provided with a projectile sheath, in which the ejection charge is housed.

The invention is explained below with the help of an exemplary embodiment with reference to the drawings. The drawings are schematic representations.

Figure 1 shows a side view of a projectile according to the invention.

Figure 2 shows a sectional view of the projectile shown in Figure 1.

Figure 3 shows the projectile shown in Figure 1 in a perspective view; Y

Figure 4 shows a sectional view of a projectile according to the invention in the area of the rear flange.

The projectile 1 shown in figure 1 in a side view, in figure 2 in a sectional view and in figure 3 in a perspective view comprises a penetrating body 2, which forms a projectile sheath, which has an interior space 3, which is filled with explosive substance 4. At the front end of projectile 1 there is an essentially conical bell 5 and a front flange 6.

At the rear end, the projectile has a rear flange 7, which is retained in positive connection in the penetrating body 2. The rear end of the projectile 1 is formed by a fuze 8.

Figure 4 is a sectional view and shows an enlarged detail in the area of the junction between the penetrating body 2 and the rear flange 7. In Figure 4 it is recognized that the essentially cylindrical penetrating body 2 has a radially pointing projection 9 out, which is delimited by three surfaces.

The projection 9 has a rear surface 10, which extends approximately perpendicular to the longitudinal axis of the penetrating body 2 on a part of the periphery. The rear surface 10 forms a common contact surface with the flange 7, that is, the flange 7 contacts on the rear surface 10 with the projection 9 of the penetrating body 2. In addition, the projection 9 has an outer surface 11, which is connects on the rear surface 10 and that extends over a part of the periphery of the projection 9. In Figure 4 it is recognized that the outer surface 11 is inclined with respect to the longitudinal axis of the penetrating body 2 such that the diameter of a cone formed by the outer surface 11 is increased towards the rear end of the projectile 1.

On the outer surface 11 another inclined surface 12 is connected forward, which connects the outer surface 11 with the outer side of the penetrating body 2. As can be seen in Figure 4, the outer surface 11 forms a comparatively flat angle with the axis longitudinal of projectile 1, as opposed to surface 12, which forms a comparatively steep angle with the longitudinal axis of projectile 1.

In this place, the projection 9 is not directly connected to the flange 7, instead a free space 13 is formed therein, so that the surface 12 of the projection 9 is distanced from the opposite surface of the flange 7.

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Figure 4 shows only a single projection 9, the projectile 1 may also present in other embodiments other projections 9 spaced apart in longitudinal direction. Likewise, several separate and distanced projections may be present.

The rear flange 7, of which only a fragment is shown in Figure 4, is constituted in this exemplary embodiment by several segments of the same size, which extend, respectively, over a given angular area. Since the flange 7 is divided, it can be easily mounted, so that it is retained by the projections 9. Additionally, a retaining ring 14 is provided, which is associated with the rear flange 7.

When the projectile 1 is fired, the rear flange 7 transmits the gas forces on the rear surface 10 of the projection 9 on the projection 9 and, therefore, on the penetrating body 2, thereby accelerating it. In this way, the undercalibrated projectile 1 can reach a high velocity in the mouth.

When it hits a target, the penetrating body 2 penetrates the target. During the penetration process, the rear flange 7 comes into contact with the target material. In this way, the flange 7 experiences a counter force that acts from the front, which causes the flange 7 to widen in the area of the outer surface 11 until the expansion to breakage of the material from which the flange 7 is made has been reached. In the exemplary embodiment shown, the rear flange 7 is constituted of an aluminum alloy. The widening of the flange 7 in the area of the outer surface 11 is favored by the fact that the outer surface 11 of the flange 9 or the corresponding opposite inner surface of the flange 7 has a flat angle. Additionally, the flange 7 has theoretical break points arranged distributed on the periphery, which are configured as weakening of the material, for example in the form of a reduction in wall thickness. In this way the flange 7 is broken down into several fragments or segments, which then affect the inclined surface 12 of the projection 9. Since the surface 12 forms a comparatively steep angle with the longitudinal axis of the projectile 1, a discharge is favored of the fragments and segments of the flange 7 outside the path of the penetrating body 2. The fuze 8 can be adjusted such that the ignition process is only activated when the penetrating body 2 has passed through the target material, so that You can fight a target behind.

The projectile 1 explained with the help of figures 1 to 4 has the advantage that the trigger is not threatened by the drive diaphragm segments, which fly out in the tube mouth area. Projectile 1 is especially well suited for military operations in urban terrain (MOUT).

 List of

 ! reference signs

 one

 Projectile

 2

 Penetrating body

 3

 Interior space

 4

 Explosive substance

 5

 Bell

 6

 Eyelash

 7

 Eyelash

 8

 Fuse

 9

 Projection

 10

 Surface

 eleven

 Outer surface

 12

 Surface

 13

 Free space

 14

 Retaining ring

Claims (6)

5 10 fifteen twenty 25 1. - Projectile (1), with a projectile sheath, which forms a penetrating body (2), which has an interior space (3) filled with explosive substance (4), in which the penetrating body (2) presents its rear end projections (9) pointing radially outward, in which a flange (7) that surrounds the penetrating body (2) is retained in positive connection, in which the flange (7) has at least one theoretical point of breakage that causes a destruction of the flange (7) when the penetrating body (2) hits and / or penetrates a target, a projection (9) of the penetrating body (2) has an inclined outer surface (11) with respect to the longitudinal axis of the projectile (1) with a diameter that increases towards the rear end of the projectile (1), the projection (9) of the penetrating body (2) has a rear contact surface (10) and a front surface (12) inclined with respect to the longitudinal axis of the projectile (1), and between the surface of the Ntera (12) inclined with respect to the longitudinal axis of the projectile (1) of the projection (9) and the flange (7) forms a free space (13). 2. - Projectile according to claim 1, characterized in that between the projections (9) of the penetrating body (2) and the flange (7) at least one contact surface is formed which extends at least approximately radially. 3. - Projectile according to claim 1 or 2, characterized in that the penetrating body has several projections (9) spaced apart from each other in the longitudinal direction and / or in the circumferential direction. 4. - Projectile according to one of the preceding claims, characterized in that the flange (7) is configured in several parts and / or segmented. 5. - Projectile according to one of the preceding claims, characterized in that the flange (7) is constituted of a light metal alloy, in particular of an aluminum alloy, or of a fiber composite material preferably containing carbon fibers and / or glass fibers. 6. - Projectile according to one of the preceding claims, characterized in that it has a fuze (8) or a time fuze, which is preferably arranged in the interior space (3) or closes the interior space (3).