PROJECTILE

Abstract

A projectile including an ejectable cup intended to protect a base of the projectile from propulsion gases, the cup including a wall surrounding the base and extending to a position where the edge of the wall is pinched between a seal surrounding the body of the projectile and a collar, comprising an annular part centered on a first cylindrical seat having a first diameter. The first seat is separated from a second seat by a shoulder, the face of which is oriented toward the rear of the projectile, a gripping means pressing the seal against the annular part, which causes the radial expansion of the seal, pressing it against the edge of the cup.

Claims

1- A projectile including an ejectable cup intended to protect, during firing, a base of the projectile with respect to propulsion gases, the cup including a bottom located at a rear of the projectile and a wall surrounding the base and extending longitudinally to a position where an edge of the wall is pinched between a seal surrounding a body of the projectile and a collar also surrounding the projectile, the collar comprising an annular part centered on a first cylindrical seat of the body of the projectile, the first cylindrical seat having a first diameter, the collar being located behind a rotating band of the projectile that is centered on a second cylindrical seat of the body of the projectile, the second cylindrical seat having a second diameter, wherein the first cylindrical seat is separated from the second cylindrical seat by a shoulder, a face of which is oriented toward the rear of the projectile, a gripping means pressing the seal against the annular part of the collar, which causes the radial expansion of the seal, which is thus pressed against the edge of the cup, which is in turn pressed against an inside of the collar.

2- The projectile according to claim 1, wherein the gripping means includes a nut screwed on a thread centered on the projectile body, the thread having an outer diameter that is less than or equal to the first diameter, the nut being able to be fragmented by the action of centrifugal forces developed during firing.

3- The projectile according to claim 1, wherein the seal includes at least one axial stack of resilient rings.

4- The projectile according to claim 3, wherein each resilient ring is made up of an assembly of a plurality of contiguous sectors, the junctions of which are distributed angularly evenly and such that, for a first ring, the junction zones are angularly offset relative to the junction zones of a second adjacent ring.

5- The projectile according to claim 2, wherein the seal includes at least one axial stack of resilient rings.

6- The projectile according to claim 5, wherein each resilient ring is made up of an assembly of a plurality of contiguous sectors, the junctions of which are distributed angularly evenly and such that, for a first ring, the junction zones are angularly offset relative to the junction zones of a second adjacent ring.

7- The projectile according to claim 1, wherein the collar is made up of the assembly of a plurality of contiguous sectors, the junctions of which are distributed angularly evenly, the annular part of the collar is located across from the inside of the collar, thus forming a chute capable of matching the edge of the shell, and is located partially between the edge of the cup and the projectile body, which prevents the radial separation from the collar.

8- The projectile according to claim 2, wherein the collar is made up of the assembly of a plurality of contiguous sectors, the junctions of which are distributed angularly evenly, the annular part of the collar is located across from the inside of the collar, thus forming a chute capable of matching the edge of the shell, and is located partially between the edge of the cup and the projectile body, which prevents the radial separation from the collar.

9- The projectile according to claim 3, wherein the collar is made up of the assembly of a plurality of contiguous sectors, the junctions of which are distributed angularly evenly, the annular part of the collar is located across from the inside of the collar, thus forming a chute capable of matching the edge of the shell, and is located partially between the edge of the cup and the projectile body, which prevents the radial separation from the collar.

10- The projectile according to claim 4, wherein the collar is made up of the assembly of a plurality of contiguous sectors, the junctions of which are distributed angularly evenly, the annular part of the collar is located across from the inside of the collar, thus forming a chute capable of matching the edge of the shell, and is located partially between the edge of the cup and the projectile body, which prevents the radial separation from the collar.

11- The projectile according to claim 5, wherein the collar is made up of the assembly of a plurality of contiguous sectors, the junctions of which are distributed angularly evenly, the annular part of the collar is located across from the inside of the collar, thus forming a chute capable of matching the edge of the shell, and is located partially between the edge of the cup and the projectile body, which prevents the radial separation from the collar.

12- The projectile according to claim 6, wherein the collar is made up of the assembly of a plurality of contiguous sectors, the junctions of which are distributed angularly evenly, the annular part of the collar is located across from the inside of the collar, thus forming a chute capable of matching the edge of the shell, and is located partially between the edge of the cup and the projectile body, which prevents the radial separation from the collar.

Description

[0018] The invention will be better understood upon reading the following description, done with reference to the appended drawings, in which drawings:

[0019] FIG. 1a shows a rear three-quarters view of a projectile according to the prior art.

[0020] FIG. 1b shows a longitudinal sectional detail view of a projectile according to the prior art, positioned in a gun, the illustrated detail is identified by a circle in FIG. 1a.

[0021] FIG. 1c shows a view of the rear part of a projectile according to the prior art under flight conditions.

[0022] FIG. 2a shows a longitudinal sectional detail view of a projectile according to the invention positioned in a gun.

[0023] FIG. 2b shows a rear three-quarters view of a projectile according to the invention during the release of a cup.

[0024] FIG. 2c shows a view of the rear part of a projectile according to the invention under flight conditions.

[0025] As outlined in the preamble, FIGS. 1a, 1b and 1c show a projectile according to the Prior Art.

[0026] According to FIG. 1a, a projectile 1 includes a projectile body 2 surrounded by a rotating band 3 arranged in a groove 3a. The rear of the projectile 1 body 2 is contained in a cup 5 that includes a bottom 5a and a wall 5b that surrounds the rear of the projectile body 2 and extends from the bottom 5a to beneath a collar 4 located behind the rotating band 3.

[0027] According to FIG. 1b, the collar 4 includes an annular part 4a centered on the body of the projectile 1 and leaning on the rotating band 3. It will be recalled that the rotating band 3 serves to seal the connection between the projectile 1 and the inner wall of a gun 100 so that the propulsion gases stay behind the projectile and do not leak around the projectile.

[0028] According to the prior art, the projectile thus includes a circular bulge 6 including a groove 7 that receives an O-ring 8. The edge 5c of the wall 5b of the cup 5 passes below the collar 4 and is pinched between the O-ring 8 and the inner face of the collar 4.

[0029] Thus, when the projectile is in the gun, the gases cannot infiltrate the inside of the cup 5 by crossing the edge 5c.

[0030] After firing, once the projectile has left the gun as illustrated on FIG. 1c, the cup 5 is released using means known by the person skilled in the art, like those disclosed in patent EP 1,297,292 and which are not the subject matter of the present invention.

[0031] The rotating band 3 is also no longer held by the tube of the weapon and is separated by the rotation of the projectile 1. The collar 4 remains in place as shown in FIG. 1c, behind the groove 3a that was receiving the rotating band.

[0032] The rear of the projectile 1 is then freed and the fins 200 serving to increase the range of the projectile 1 can deploy (here the fins are formed by metal sheets wound around the rear of the projectile and which deploy resiliently).

[0033] It nevertheless remains the bulge 6 covered by the collar 4 that forms a protruding obstacle frontally opposing the penetration in the air of the projectile by disrupting the flow 300 of air along the profile of the projectile 1, which is detrimental to its range.

[0034] FIGS. 2a, 2b and 2c show a projectile according to one embodiment of the invention.

[0035] According to FIG. 2a, the projectile 1 includes a cup 5, the edge 5c of the wall 5b of which is located below a collar 4, and between the collar 4 and a seal 8 located on the projectile body. The collar 4 includes an annular part 4a that is centered on a first cylindrical seat of the body 2 of the projectile, which has a first diameter D1, and that is leaning on a rotating band 3 in turn centered on a second cylindrical seat of the projectile body 2 that has a second diameter D2.

[0036] The first diameter D1 is smaller than the second diameter D2 so as to form a shoulder 10 whereof the annular face is oriented toward the rear AR of the projectile 1.

[0037] A pair of resilient rings 11 and 12 stacked axially forms the seal 8, guaranteeing that the propulsion gases do not pass between the collar 4 and the edge 5c of the cup 5.

[0038] The resilient rings 11 and 12 are crushed against the annular part 4a of the collar 4 by a gripping means 13 including a nut screwed on a thread 14 formed on the first diameter D1 of the projectile body, the gripping means including a nut 13.

[0039] Pressure exerted by the gripping means 13 causes the radial expansion of the resilient rings 11 and 12, which are compressed against the edge 5c of the shell 5, which in turn is pressed against the inside of the collar 4.

[0040] The person skilled in the art will understand that the resilient rings 11 and 12 can be replaced by an O-ring.

[0041] The sealing thus done prevents the propulsion gases from crossing the edge 5c of the cup.

[0042] For reasons mentioned later, the collar 4 and its annular part 4a are made up of several sectors contiguous in pairs, the junctions of which are angularly evenly distributed. In order to keep these sectors joined, the annular part 4a of the collar 4 is located across from the inside of the collar 4, thus forming a chute 4c able to correspond to the edge 5c of the cup 5. This annular part 4a according to the invention is therefore located partially between the edge 5c of the shell 5 and the projectile body 2, which prevents the radial separation of the collar 4 owing to the edge 5c of the shell 5, which opposes any radial movement of the inner part 4b of the collar 4. Likewise, the resilient rings 11 and 12 include sectors contiguous in pairs, the junctions of which are angularly evenly distributed. Owing to the edge 5c of the cup, any radial movement of the ring sectors 11 and 12 is blocked, which maintains the integrity of the resilient rings.

[0043] According to FIG. 2b, upon leaving the barrel of the weapon (barrel not shown), the cup 5 slides toward the rear of the projectile 1 until it is released. One can see that once the edge 5c of the wall 5a of the shell 5 is removed from beneath the collar 4, the latter is no longer radially retained and the various sectors of the collar 4 separate from the projectile 1 through the combined effect of the centrifugal force and aerodynamic stresses experienced by the collar 4.

[0044] The same is true for the resilient ring sectors 11 and 12 forming the seal 8.

[0045] One can see in this view that the junctions of each ring sector of a first ring 11 are axially offset relative to the junctions of the sectors of the second adjacent ring 12 such that each junction is across from an adjacent ring sector to improve the sealing provided by the ring sectors 11 and 12.

[0046] The gripping means 13 includes fragmentation lines that allow it to burst under the centrifugal force once the collar 4 is released.

[0047] According to FIG. 2c, the shell 5 has been released and the collar ring sectors no longer retained by the edge 5b of the shell 5 have been dispersed as well as the gripping means (cup, rings and collar not shown).

[0048] The fins 200 are deployed. It will be noted that the projectile body 2 exposes, in the order of travel P of air along its profile, the second seat having a second diameter D2 greater than the first diameter D1 of the first seat and that all of the following changes in diameter D moving toward the rear AR of the projectile 1 have decreasing dimensions, which makes it possible not to oppose frontal resistance to the flow P of air, and therefore to the penetration of the projectile 1 in the air.

[0049] The invention therefore makes it possible not to reduce the range, unlike the solution according to the prior art, and the rear part of the projectile nevertheless remains protected from the gases during the gun firing phase.