초록 ▼

A kinetic energy penetrator includes a plurality of penetrator segments, a penetrator segment sleeve for storing the plurality of penetrator segments, and means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of atta

A kinetic energy penetrator includes a plurality of penetrator segments, a penetrator segment sleeve for storing the plurality of penetrator segments, and means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of attack. A method includes storing a plurality of penetrator segments away from an axis of attack and moving the plurality of penetrator segments to locations substantially aligned along the axis of attack. A vehicle includes a body and a kinetic energy penetrator disposed in a forward portion of the vehicle. The kinetic energy penetrator includes a plurality of penetrator segments, a penetrator segment sleeve for storing the plurality of penetrator segments, and means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of attack.

대표청구항 ▼

What is claimed is: 1. A kinetic energy penetrator, comprising: a precursor; a plurality of penetrator segments; a penetrator segment sleeve for storing the plurality of penetrator segments, the penetrator segment sleeve defining a circuitous lumen for storing the plurality of penetrator segments;

What is claimed is: 1. A kinetic energy penetrator, comprising: a precursor; a plurality of penetrator segments; a penetrator segment sleeve for storing the plurality of penetrator segments, the penetrator segment sleeve defining a circuitous lumen for storing the plurality of penetrator segments; and means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of attack behind the precursor. 2. The kinetic energy penetrator, according to claim 1, wherein the means for moving the plurality of penetrator segments comprises one of: a squib, a gas canister, and an exhaust gas feed. 3. A kinetic energy penetrator, comprising: a precursor; a plurality of generally spherical penetrator segments; a penetrator segment sleeve for storing the plurality of penetrator segments; and means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of attack behind the precursor. 4. A kinetic energy penetrator, comprising: a precursor; a plurality of penetrator segments; a penetrator segment sleeve for storing the plurality of penetrator segments; means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of attack behind the precursor; and a tube for substantially aligning the plurality of penetrator segments along the axis of attack, wherein the means for moving the plurality of penetrator segments moves the plurality of penetrator segments from the penetrator segment sleeve into the tube. 5. The kinetic energy penetrator, according to claim 4, further comprising: a locking mechanism for preventing the movement of the plurality of penetrator segments from the tube into the penetrator segment sleeve. 6. A kinetic energy penetrator, comprising: a tube; a precursor disposed in the tube; means for moving the tube from a retracted position to an extended position; a plurality of penetrator segments; a penetrator segment sleeve for storing the plurality of penetrator segments; and means for moving the plurality of penetrator segments from the penetrator segment sleeve into the tube behind the precursor when the tube is in the extended position. 7. The kinetic energy penetrator, according to claim 6, further comprising: a tube guiding assembly for guiding the tube in a proper orientation from the retracted position to the extended position. 8. The kinetic energy penetrator, according to claim 7, wherein the tube guiding assembly comprises: a bushing for guiding the tube from the retracted position to the extended position. 9. The kinetic energy penetrator, according to claim 6, wherein each of the plurality of penetrator segments is generally spherical. 10. The kinetic energy penetrator, according to claim 6, wherein the penetrator segment sleeve defines a circuitous lumen for storing the plurality of penetrator segments. 11. The kinetic energy penetrator, according to claim 6, wherein the means for moving the plurality of penetrator segments comprises: one of a squib, a gas canister, and an exhaust gas feed. 12. The kinetic energy penetrator, according to claim 6, further comprising: a locking mechanism for locking the tube in the extended position. 13. The kinetic energy penetrator, according to claim 6, further comprising: a locking mechanism for preventing the movement of the plurality of penetrator segments from the tube into the penetrator segment sleeve. 14. A kinetic energy penetrator, comprising: a tube; means for moving the tube from a retracted position to an extended position; a plurality of penetrator segments; a penetrator segment sleeve for storing the plurality of penetrator segments; means for moving the plurality of penetrator segments from the penetrator segment sleeve into the tube when the tube is in the extended position; and a tube guiding assembly for guiding the tube in a proper orientation from the retracted position to the extended position; wherein the tube defines a flat on an outer surface thereof; and wherein the tube guiding assembly comprises: a roller adapted to roll along the flat as the tube is moved from the retracted position to the extended position. 15. A method, comprising: providing a precursor attached to a tube for substantially aligning the plurality of penetrator segments along an axis of attack; storing a plurality of penetrator segments away from the axis of attack; moving the tube from a retracted position to an extended position; and moving the plurality of penetrator segments to locations substantially aligned along the axis of attack behind the precursor. 16. The method, according to claim 15, wherein storing the plurality of penetrator segments is accomplished by storing the plurality of penetrator segments in a penetrator segment sleeve. 17. The method, according to claim 15, wherein moving the plurality of penetrator segments is accomplished by moving the plurality of penetrator segments via a fluid motive force. 18. The method, according to claim 15, wherein moving the plurality of penetrator segments is accomplished by moving the plurality of penetrator segments into a tube. 19. The method, according to claim 15, wherein moving the tube is accomplished by moving the tube via a fluid motive force. 20. A vehicle, comprising: a motor for propelling the vehicle into a target; a body, a rear portion of the body housing the motor; and a kinetic energy penetrator disposed in a forward portion of the body, the kinetic energy penetrator comprising: a precursor; a plurality of penetrator segments; a penetrator segment sleeve for storing the plurality of penetrator segments; and means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of attack behind the precursor.