A supercavitating projectile is disclosed that has deployable fins. The fins are pivotally coupled to the body of the projectile. The fins have two primary states: stowed within a recess at the surface of the projectile and deployed to a radially-extended position relative to the body of the project
A supercavitating projectile is disclosed that has deployable fins. The fins are pivotally coupled to the body of the projectile. The fins have two primary states: stowed within a recess at the surface of the projectile and deployed to a radially-extended position relative to the body of the projectile. The fins deploy as the projectile leaves its launch tube. The fins function as a control surface, interacting with the wall of the vapor cavity in which the supercavitating projectile travels.
대표청구항▼
1. A projectile comprising: a nose, wherein the forward surface of the nose comprises a cavitator for creating a gaseous cavity inside a water medium;a body, wherein the nose depends from the body; anda fin pivotally coupled to the body, the fin having a stowed position and a deployed position, and
1. A projectile comprising: a nose, wherein the forward surface of the nose comprises a cavitator for creating a gaseous cavity inside a water medium;a body, wherein the nose depends from the body; anda fin pivotally coupled to the body, the fin having a stowed position and a deployed position, and wherein a width-to-chord ratio of the fin is greater than one. 2. The projectile of claim 1 and further comprising a recess in an exterior surface of the body of the projectile, wherein in the stowed position, the fin is disposed in the recess. 3. The projectile of claim 2 further comprising a coupling for pivotally coupling the fin to the body, wherein the coupling comprises: two spaced-apart channels disposed in the surface of the projectile aft of the recess;a plurality of axially-aligned holes, wherein the holes are formed in walls defined by the channels; anda pivot pin, wherein the pivot pin is received by the holes. 4. The projectile of claim 3 and further wherein the fin comprises: a fin body; andtwo shoulders that depend therefrom, wherein the shoulders each have a hole that is dimensioned and arranged to receive the pivot pin, thereby pivotally connecting the fin to the coupling. 5. The projectile of claim 4 wherein an edge of at least one of the shoulders defines a cam, wherein during deployment of the fin, the cam couples to a cam follower, wherein when coupled, the cam follower prevents the fin from rotating back toward the recess. 6. The projectile of claim 1 and further wherein the fin is dimensioned and arranged so that the body of the projectile supports the fin against fluid drag forces when the fin is deployed. 7. A projectile comprising: a nose, wherein the forward surface of the nose comprises a cavitator for creating a gaseous cavity inside a water medium;a body, wherein the nose depends from the body; anda deployable fin that deploys from a stowed position to a deployed position, wherein a width-to-chord ratio of the fin is greater than one; anda coupling, wherein the deployable fin is pivotally coupled to the projectile's body by the coupling, and wherein the coupling has a single degree of freedom about an axis of rotation that is perpendicular to a longitudinal axis of the projectile. 8. The projectile of claim 7 wherein the deployable fin is forward of an exhaust nozzle of the projectile and circumferential to a propellant bay within the body of the projectile. 9. The projectile of claim 7 and further wherein the fin is dimensioned and arranged so that the body of the projectile supports the fin against fluid drag forces when the fin is deployed. 10. A projectile comprising: a nose, wherein the forward surface of the nose comprises a cavitator for creating a gaseous cavity inside a water medium;a body, wherein the nose depends from the body; anda deployable fin that deploys from a stowed position to a deployed position, wherein a width-to-chord ratio of the fin is greater than one, and wherein the fin comprises: a fin body; andtwo shoulders that depend therefrom, wherein the shoulders each have a hole that is dimensioned and arranged to cooperate with a coupling to pivotally connect the fin to the body of the projectile, andwherein an edge of at least one of the shoulders defines a cam, wherein during deployment of the fin, the cam couples to a cam follower, wherein when coupled, the cam follower prevents the fin from rotating back toward the recess. 11. The projectile of claim 10 wherein the deployable fin is forward of an exhaust nozzle of the projectile. 12. The projectile of claim 10 further comprising the coupling, wherein the deployable fin is pivotally coupled to the projectile's body by the coupling, and wherein the coupling has a single degree of freedom about an axis of rotation that is perpendicular to a longitudinal axis of the projectile. 13. The projectile of claim 10 and further wherein the fin is dimensioned and arranged so that the body of the projectile supports the fin against fluid drag forces when the fin is deployed.
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