One example embodiment includes an aircraft system. The system includes a body comprising a payload and a propulsion system. The propulsion system can be configured to enable launch of the aircraft system. The system also includes a shrouding system that substantially encloses at least a portion of
One example embodiment includes an aircraft system. The system includes a body comprising a payload and a propulsion system. The propulsion system can be configured to enable launch of the aircraft system. The system also includes a shrouding system that substantially encloses at least a portion of the body in a shrouded state. The shrouding system includes a fairing portion and a sleeve portion that are arranged as detachably coupled with respect to each other and with respect to the at least a portion of the body. The fairing portion can separate from the sleeve portion in a deployed state and the body can become axially separated from the sleeve portion in the deployed state. The aircraft system can switch from the shrouding state to the deployed state during a detach stage of the launch of the aircraft system.
대표청구항▼
1. An aircraft system comprising: a body comprising a payload and a propulsion system, the propulsion system being configured to enable launch and flight of the aircraft system; anda shrouding system that substantially encloses at least a portion of the body in a shrouded state, the shrouding system
1. An aircraft system comprising: a body comprising a payload and a propulsion system, the propulsion system being configured to enable launch and flight of the aircraft system; anda shrouding system that substantially encloses at least a portion of the body in a shrouded state, the shrouding system comprising a fairing portion and a sleeve portion that are arranged as detachably coupled with respect to each other and with respect to the at least a portion of the body, wherein the sleeve portion comprises a tubular unitary structure portion that substantially surrounds the at least a portion of the body along a longitudinal axis of the aircraft system, wherein the fairing portion separates from the sleeve portion in a deployed state and wherein the body becomes axially separated from the sleeve portion in the deployed state, the aircraft system switching from the shrouded state to the deployed state during a detach stage of the launch of the aircraft system. 2. The system of claim 1, wherein the fairing portion comprises a plurality of substantially equal sized fairing elements that are arranged in approximately equal angles about a cross-section with respect to a longitudinal axis of the aircraft system. 3. The system of claim 1, wherein the fairing portion comprises a first fairing element and a second fairing element that substantially enclose a front portion of the body, wherein the first portion and the second portion are separated from the sleeve portion substantially concurrently during the detach stage opposite each other with respect to a longitudinal axis of the aircraft system. 4. The system of claim 3, wherein the first fairing element and the second fairing element of the fairing portion are arranged in a clamshell configuration in the shrouded state. 5. The system of claim 3, wherein the first fairing element and the second fairing element of the fairing portion are coupled to the sleeve portion via break-away hinges, such that the first portion and the second portion are configured to rotationally swivel about the respective break-away hinges during the detach stage of the launch before separating from the sleeve portion in response to an angle of the rotational swivel of the respective first and second fairing elements exceeding a predetermined angle. 6. The system of claim 1, wherein the sleeve portion comprises a maximum cross-sectional dimension with respect to a longitudinal axis of the aircraft system, wherein the fairing portion comprises a cross-sectional dimension with respect to the longitudinal axis of the aircraft system that decreases from the maximum cross-sectional dimension of the sleeve portion at a coupling of the sleeve portion and the fairing portion and which decreases in a tapered manner toward a front end of the aircraft system. 7. The system of claim 1, wherein at least a portion of the shrouding system is configured to store liquid fuel associated with the propulsion system. 8. The system of claim 7, wherein the fairing portion of the shrouding system is configured to store the liquid fuel associated with the propulsion system to provide balance mass distribution for the aircraft system. 9. The system of claim 1, wherein the propulsion system comprises: an external portion that is coupled to and exterior with respect to the sleeve portion, the external portion being configured to provide thrust during an initial at least one stage of the launch and flight; andan internal portion that is substantially enclosed by the sleeve portion, the internal portion being configured to provide thrust during the detach stage of the launch to axially detach the body from the sleeve portion subsequent to the separation of the fairing portion from the sleeve portion. 10. A method for detaching a shroud system that substantially encloses at least a portion of a body of an aircraft system in a shrouded state, the method comprising: releasing a coupling between a first fairing element of a fairing portion of the shroud system and a second fairing element of the fairing portion of the shroud system;rotating the first fairing element and the second fairing element of the fairing portion of the shroud system approximately equally from an axial length of the aircraft system via respective break-away hinges;physically separating the first fairing element and the second fairing element of the fairing portion of the shroud system from a sleeve portion of the shroud system that substantially surrounds a portion of the body of the aircraft in response to rotation of the first fairing element and the second fairing element greater than a predetermined angle from the axial length of the aircraft system; andaxially separating the portion of the body of the aircraft system from the sleeve portion to axially eject the portion of the body of the aircraft from the sleeve portion of the shroud system to detach the shroud system from the aircraft in a deployed state. 11. The method of claim 10, wherein releasing the coupling comprises releasing the coupling between a plurality of substantially equal sized fairing elements that are arranged in approximately equal angles about a cross-section with respect to a longitudinal axis of the aircraft system. 12. The method of claim 10, wherein releasing the coupling comprises releasing the coupling between the first and second fairing elements of the fairing portion arranged in a clamshell arrangement. 13. The method of claim 10, wherein at least a portion of the shrouding system is configured to store liquid fuel associated with a propulsion system associated with the aircraft system. 14. The method of claim 10, wherein axially separating the portion of the body of the aircraft system from the sleeve portion comprises axially separating the portion of the body of the aircraft system from the sleeve portion via a propulsion system associated with the aircraft system. 15. The method of claim 10, wherein the sleeve portion comprises a tubular portion that substantially surrounds the at least a portion of the body along a longitudinal axis of the aircraft system. 16. An aircraft system comprising: a body comprising a payload and a propulsion system, the propulsion system being configured to enable launch of the aircraft system; anda shrouding system that substantially encloses at least a portion of the body in a shrouded state, the shrouding system comprising: a fairing portion comprising a plurality of substantially equal sized fairing elements that are arranged in approximately equal angles about a cross-section with respect to a longitudinal axis of the aircraft system and which are configured to separate and detach from the shrouding system in a deployed state during a detach stage of the launch of the aircraft system; anda sleeve portion comprising a tubular unitary portion that substantially surrounds the at least a portion of the body along a longitudinal axis of the aircraft system, the sleeve portion being arranged as detachably coupled with respect to the fairing portion and with respect to the at least a portion of the body, wherein the body becomes axially separated from the sleeve portion in the deployed state via the propulsion system during the detach stage of the launch of the aircraft system. 17. The system of claim 16, wherein the plurality of fairing elements are coupled to the sleeve portion via break-away hinges, such that the plurality of fairing elements are configured to rotationally swivel about the respective break-away hinges during the detach stage of the launch before separating from the sleeve portion in response to an angle of the rotational swivel of the respective first and second fairing elements exceeding a predetermined angle. 18. The system of claim 16, wherein at least a portion of the shrouding system is configured to store liquid fuel associated with the propulsion system to provide balance mass of the aircraft system. 19. The system of claim 16, wherein the propulsion system comprises: an external portion that is coupled to and exterior with respect to the sleeve portion, the external portion being configured to provide thrust during an initial at least one stage of the launch; andan internal portion that is substantially enclosed by the sleeve portion, the internal portion being configured to provide thrust during the detach stage of the launch to axially detach the body from the sleeve portion subsequent to the separation of the fairing portion from the sleeve portion.
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Roy Donald W. (Golden CO) Hastert James L. (Lakewood CO), Dome and window for missiles and launch tubes with high ultraviolet transmittance.
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