Aeronautics and astronautics – Missile stabilization or trajectory control – Externally mounted stabilizing appendage
Reexamination Certificate
2003-03-24
2004-06-08
Carone, Michael J. (Department: 3641)
Aeronautics and astronautics
Missile stabilization or trajectory control
Externally mounted stabilizing appendage
C244S003270, C244S003290, C102S520000, C102S377000, C102S400000
Reexamination Certificate
active
06745978
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to the stabilization of projectiles in flight.
The invention more particularly relates to the aerodynamic stabilization of projectiles of a type that, during flight, are designed to jettison either a forward or an aft body that was connected to the projectile when it was initially launched, as from a gun or a missile. Those skilled in the art are well aware of the context or contexts in which such a mode of operation occurs.
Aerodynamic stabilization of a projectile in flight, i.e., preventing it from tumbling, is achieved by making the center of the lifting forces, also referred to as the center of pressure, lie behind the center of mass. The distance between these centers and divided by the total projectile length is called the static margin. Even if the projectile is stable when launched, its static margin may sufficiently change after the body that was attached to it is jettisoned that the static margin is no longer sufficient to ensure stable flight.
SUMMARY OF THE INVENTION
In accordance with the invention, the lift force center, or center of pressure, of a projectile is caused to move upon the occurrence of an event that changes the static margin, such as the jettisoning of a body previously attached to the projectile. In particular embodiments, this is achieved by a flare disposed toward the rear of the projectile. The flare has elements that deploy from a first, stowed position to a second, deployed position upon the occurrence of the jettisoning, or separation, event. In the stowed position, the deployable elements are aligned with the air stream, in order to minimize drag. In the deployed position, the deployable elements project into the air stream in such a way as to move the lift center rearward. In an illustrative embodiment of the invention disclosed herein, deployment of the deployable elements is illustratively achieved by taking advantage of an abrupt change in velocity (i.e., an acceleration or deceleration) that occurs when the attached body and the projectile are separated from one another by, for example, the setting off of a propellant charge that drives them apart while in flight. An inertial component of the flare, illustratively a slide ring, is arranged to shift position relative to the rest of the flare in response to the abrupt velocity change and is connected to the deployable elements in such a way, and has sufficient inertia, as to move the deployable elements to their deployed positions upon separation. A detent mechanism is provided to lock the deployable elements in place once they have been moved to their deployed position. This is illustratively achieved by locking the aforementioned inertial component in its displaced position.
The projectile launch acceleration may be on the order of four times as large as the separation acceleration. In order to prevent the aforementioned inertial component from prematurely deploying the deployable elements during the launch acceleration of the projectile, the flare illustratively includes a plurality of slide supports, supported by a retaining element, thereby keeping the shifting element and the deployable elements in their original positions. The retaining element engages the deployable elements to preclude any fluttering in flight that might occur while they are in their stowed position. The retaining element detaches from the rest of the flare at the separation event, thereby allowing the deployable elements to deploy under the influence of the inertial component.
The deployable elements are illustratively a plurality of petals each hinged at one end to a support ring and arrayed around a central axis of the flare. The inertial component is, as previously mentioned, illustratively a slide ring to which each petal is linked in such a way that the displacement of the slide ring swings the petals around their hinged ends to their deployed positions.
An illustrative embodiment of a flare embodying the principles of the invention is the subject matter of our copending and commonly-assigned U.S. patent application Ser. No. 10/396,221 filed of even date herewith entitled, “Deployable Flare for Aerodynamically Stabilizing a Projectile”, hereby incorporated herein by reference.
A different illustrative embodiment of a flare embodying the principles of the invention is the subject matter of co-pending and commonly-assigned U.S. patent application Ser. No. 10/396,220 filed of even date herewith entitled, “Deployable Flare With Simplified Design”, the applicants of that patent application being John Daryl Carlyle, William Leroy Hall, Hartley Hughes King, Thomas Louis Menna, Lawrence Steven Romero. That application is also hereby incorporated herein by reference.
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King Hartley Hughes
Menna Thomas Louis
Romero Lawrence Steven
Semunegus L.
Slusky Ronald D.
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