Integral injection thrust vector control with booster attitude control system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F42B-010/66
F42B-015/01
F42B-010/00
F42B-010/60
출원번호
US-0141714
(2013-12-27)
등록번호
US-9115964
(2015-08-25)
발명자
/ 주소
Facciano, Andrew B
Alkema, Michael S
Leal, Michael A
Chasman, Daniel
Moore, Robert T
출원인 / 주소
Raytheon Company
대리인 / 주소
Renner, Otto, Boisselle & Sklar, LLP
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
A projectile includes a propulsion booster for producing pressurized gases, a nozzle for expelling the pressurized gases produced by the booster, and a supplementary integrated actuation system. The integrated actuation system selectively directs propellant from a storage reservoir of the integrated
A projectile includes a propulsion booster for producing pressurized gases, a nozzle for expelling the pressurized gases produced by the booster, and a supplementary integrated actuation system. The integrated actuation system selectively directs propellant from a storage reservoir of the integrated actuation system through an interiorly-located outlet of the integrated actuation system located at the nozzle and into the nozzle, thus changing a direction of the pressurized gases expelled by the booster. The integrated actuation system also selectively directs propellant from the storage reservoir through a peripherally-located outlet of the integrated actuation system, to produce thrust at an external periphery of the projectile, thus diverting the projectile. The integrated actuation system may also selectively direct propellant to a nozzle actuation system for positioning the nozzle, to a stage separation system for separating portions of the projectile, or to a power generator for generating electric power for the projectile.
대표청구항▼
1. A projectile comprising: a propulsion booster for producing pressurized gases;a central longitudinal axis that extends through the projectile;a nozzle for expelling the pressurized gases produced by the booster, the nozzle having a nozzle wall defining a thrust passage for directing a thrust plum
1. A projectile comprising: a propulsion booster for producing pressurized gases;a central longitudinal axis that extends through the projectile;a nozzle for expelling the pressurized gases produced by the booster, the nozzle having a nozzle wall defining a thrust passage for directing a thrust plume of the pressurized gases expelled by the booster, wherein the nozzle wall has an interior surface that faces radially inward towards the axis, wherein the projectile has an exterior surface disposed substantially opposite the interior surface of the nozzle, and wherein the exterior surface faces radially outward away from the axis; anda supplementary integrated actuation system for storing and directing propellant, wherein the integrated actuation system selectively directs the propellant from a storage reservoir of the integrated actuation system to an interior outlet generally disposed near the interior surface, thus changing a direction of the thrust plume, and wherein the integrated actuation system selectively directs the propellant from the storage reservoir to a an exterior outlet generally disposed near the exterior surface, to produce thrust at an external periphery of the projectile, thus diverting the projectile. 2. The projectile as in claim 1, wherein the integrated actuation system further includes: a first set of supply channels for directing the propellant from the storage reservoir to the interior outlet; anda second set of supply channels for directing the propellant from the storage reservoir to the exterior outlet. 3. The projectile as in claim 2, further including valves for selectively opening the first and second sets of supply channels. 4. The projectile as in claim 1, further including: a fuselage flange at least partially surrounding the propulsion booster;wherein the fuselage flange defines an external opening at the external periphery; andwherein the exterior outlet opens to the external opening. 5. The projectile as in claim 1, wherein the propellant is a pressurized liquid. 6. The projectile as in claim 1, wherein the booster contains a thrust supply of propellant separated from the propellant in the storage reservoir, wherein burning of the thrust supply of propellant causes the thrust plume to be outwardly directed from the nozzlewherein injection into the nozzle of propellant from the storage reservoir alters the direction of the thrust plume relative to the central longitudinal axis. 7. The projectile as in claim 1, further including valves that control flow between the storage reservoir and the interior and exterior outlets. 8. The projectile as in claim 1, wherein the storage reservoir extends circumferentially around the nozzle. 9. The projectile as in claim 1, further including: a power generator for generating electric power for the projectile using propellant from the storage reservoir. 10. The projectile as in claim 9, further including: a manifold;wherein the power generator is coupled between the storage reservoir and the manifold; andwherein the power generator generates electric power during flow of propellant between the storage reservoir and the manifold. 11. The projectile as in claim 1, further including: a nozzle actuation system coupled to the nozzle;wherein the integrated actuation system selectively directs propellant from the storage reservoir to the nozzle actuation system to position the nozzle. 12. The projectile as in claim 1, further including: a stage separation system for separating portions of the projectile from one another;wherein the integrated actuation system selectively directs propellant from the storage reservoir to the stage separation system to selectively separate the portions of the projectile. 13. The projectile as in claim 1, wherein the integrated actuation system further includes a gas generator integral with the storage reservoir for burning propellant in the storage reservoir, thereby releasing gas into the integrated actuation system. 14. An integrated actuation system for a projectile including a body and a nozzle coupled to the body for directing a thrust plume expelled from the body, the integrated actuation system comprising: a storage reservoir containing propellant;a central longitudinal axis extending through the integrated actuation system;a radially inward facing outlet facing radially inward towards the axis and a radially outward facing outlet facing radially outward away from the axis;an initial flow passage extending between the storage reservoir and the radially inward facing outlet; andan auxiliary flow passage extending between the storage reservoir and the radially outward facing outlet;wherein propellant from the integrated actuation system is selectively directed through the initial flow passage thereby altering the direction of the thrust plume expelled from the body relative to the central longitudinal axis, or through the auxiliary flow passage thereby altering the attitude and/or roll of the projectile. 15. The integrated actuation system as in claim 14, in combination with a projectile including: the body;the nozzle coupled to the body for directing the thrust plume expelled from the body; anda nozzle actuation system;wherein the integrated actuation system is operatively coupled to the nozzle actuation system for moving the nozzle. 16. The integrated actuation system as in claim 14, in combination with a projectile including: the body;the nozzle coupled to the body for directing the thrust plume expelled from the body; anda stage separation system;wherein the integrated actuation system is operatively coupled to the stage separation system for separating portions of the projectile from one another. 17. The integrated actuation system as in claim 14, wherein the storage reservoir surrounds the nozzle. 18. The integrated actuation system as in claim 14, wherein the propellant is a pressurized fluid. 19. A method of altering a flight vector of a projectile, the method comprising: maneuvering the projectile by using fluid from a storage reservoir of the projectile;moving fluid to a radially inward facing outlet that faces radially inward towards a central longitudinal axis that extends through the projectile;moving fluid to a radially outward facing outlet that faces radially outward away from the central longitudinal axis;altering the direction of a thrust plume expelling from the nozzle by expelling the fluid from the radially inward facing outlet, and/or altering the attitude and/or roll of the projectile by expelling the fluid from the radially outward facing outlet. 20. The method as in claim 19, further including: moving the nozzle by moving fluid from a storage reservoir to a nozzle actuation system for moving the nozzle.
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이 특허에 인용된 특허 (8)
Metz Pierre (Paris FRX), Control device using gas jets for a guided missile.
Morris Joseph W. (Rancho Cordova CA) Carlson Russell W. (Folsom CA) Peterson Kevin L. (Sacramento CA) Reich Edward M. (Orangevale CA), Multiple pintle nozzle propulsion control system.
Preston, Kenneth G.; Leal, Michael A.; Wilson, Rondell J.; Hussey, Richard C., Propulsion and maneuvering system with axial thrusters and method for axial divert attitude and control.
Goddard Charles W. (San Jose CA) Lucas John T. (Los Altos CA) Galvan Paul A. (San Jose CA), Solid-propellant-powered maneuvering system for spacecraft.
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