A super-staged rocket includes at least approximately 50 rocket engines, where the engines are distributed according to at least one of: at least five multi-engine stages connected in series, each stage including at least ten engines connected in parallel; and at least five multi-stage units connect
A super-staged rocket includes at least approximately 50 rocket engines, where the engines are distributed according to at least one of: at least five multi-engine stages connected in series, each stage including at least ten engines connected in parallel; and at least five multi-stage units connected in parallel, each unit including at least five engines connected in series.
대표청구항▼
I claim: 1. A super-staged rocket comprising at least approximately 50 rocket engines, each one of the engines comprising propellant having a predetermined shape and a nozzle formed as part of the predetermined shape, wherein said engines are distributed according to at least one of: a) at least fi
I claim: 1. A super-staged rocket comprising at least approximately 50 rocket engines, each one of the engines comprising propellant having a predetermined shape and a nozzle formed as part of the predetermined shape, wherein said engines are distributed according to at least one of: a) at least five multi-engine stages connected in series, each stage comprising at least ten engines connected in parallel; and b) at least five multi-stage units connected in parallel, each unit comprising at least five engines connected in series. 2. The super-staged rocket as claimed in claim 1, wherein an ignition of a first rocket engine in a stage is substantially independent of an ignition of a second rocket engine in a same or corresponding stage. 3. The super-staged rocket as claimed in claim 1, wherein the super-staged rocket is configured so that, when a rocket engine in an upper stage is ignited by completion of a burn of a corresponding rocket engine in an adjacent lower stage, the upper and lower stages do not, as a whole, separate. 4. The super-staged rocket as claimed in claim 1, wherein the super-staged rocket is configured so that, when a rocket engine in an upper stage is ignited by completion of a burn of a corresponding rocket engine in an adjacent lower stage, the upper and lower stages separate. 5. The super-staged rocket as claimed in claim 1, wherein said rocket engines comprise solid propellant rocket engines. 6. The super-staged rocket as claimed in claim 1, wherein said rocket engines comprise at least one hybrid rocket engine. 7. The super-staged rocket as claimed in claim 1, wherein said engines are distributed as at least five multi-engine stages connected in series, each stage comprising at least ten engines connected in parallel. 8. The super-staged rocket as claimed in claim 1, wherein said engines are distributed as at least five multi-stage units connected in parallel, each unit comprising at least five engines connected in series. 9. A super-staged rocket, comprising: at least one of: a plurality of multi-engine stages, each multi-engine stage comprising a plurality of rocket engines; and a plurality of multi-stage units, each multi-stage unit comprising a plurality of rocket engines, whereby the super-staged rocket comprises a total number of rocket engines, wherein each one of the engines comprises propellant having a predetermined shape and a nozzle formed as part of the predetermined shape, wherein for each rocket engine of at least most of the total number of rocket engines, an ignition of said each rocket engine is caused by completion of a burn of a corresponding rocket engine of an adjacent lower stage, wherein a time of said ignition is randomly distributed with respect to ignitions of other rocket engines in a same or corresponding stage of said each rocket engine due to a random distribution of burn times of corresponding rocket engines in said adjacent lower stage or stages corresponding to said adjacent lower stage. 10. The super-staged rocket as claimed in claim 9, comprising said plurality of multi-engine stages, wherein for each rocket engine of at least most of the total number of rocket engines, an ignition of said each rocket engine is caused by completion of a burn of a corresponding rocket engine of an adjacent lower stage, wherein a time of said ignition is randomly distributed with respect to ignitions of other rocket engines in a same stage of said each rocket engine due to a random distribution of burn times of corresponding rocket engines in said adjacent lower stage. 11. The super-staged rocket as claimed in claim 10, wherein said super-staged rocket is continuously staged, whereby at substantially any time during a total burn of said plurality of multi-engine stages, at least one of said rocket engines is burning and providing thrust, and wherein said continuous staging is caused at least in part by a random distribution of ignitions of rocket engines in said each multi-engine stage. 12. The super-staged rocket as claimed in claim 9, wherein said super-staged rocket comprises at least approximately 100 rocket engines.
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이 특허에 인용된 특허 (5)
Porter Lane (Jupiter FL) Thayer Edward B. (Palm Beach Gardens FL), Hexagonal cluster nozzle for a rocket engine.
Daniels Mark H. (Houston TX) Funk Jack (Houston TX) Evans Wyendell B. (Friendswood TX) Varner Christopher C. (Houston TX), Overlapping stage burn for multistage launch vehicles.
Olden, Thomas A.; Wrigglesworth, Walter, Flight vehicles including electrically-interconnective support structures and methods for the manufacture thereof.
Geisler, Robert L; Mahaffy, Kevin E, Propulsion system, opposing grains rocket engine, and method for controlling the burn rate of solid propellant grains.
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