Methods for extended-range, enhanced-precision gun-fired rounds using g-hardened flow control systems
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F42B-012/20
F42B-015/01
F42B-010/14
F42B-010/44
F42B-010/62
F42B-030/10
출원번호
US-0489859
(2017-04-18)
등록번호
US-9939240
(2018-04-10)
발명자
/ 주소
Vasudevan, Srikanth
Suchy, Paul
Birch, Matthew C.
출원인 / 주소
Orbital Research Inc.
대리인 / 주소
Kolkowski, Brian
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
Methods involve using a guided munition (e.g., a mortar round or a grenade) that utilizes deployable flow effectors, activatable flow effectors and/or active flow control devices to extend the range and enhance the precision of traditional unguided munitions without increasing the charge needed for
Methods involve using a guided munition (e.g., a mortar round or a grenade) that utilizes deployable flow effectors, activatable flow effectors and/or active flow control devices to extend the range and enhance the precision of traditional unguided munitions without increasing the charge needed for launch. Sensors such as accelerometers, magnetometers, IR sensors, rate gyros, and motor controller sensors feed signals into a controller which then actuates or deploys the flow effectors/flow control devices to achieve the enhanced characteristics.
대표청구항▼
1. A method of increasing both the range and the precision of a munition comprising: firing or launching from a smooth-bore barrel a g-hardened munition comprising a forebody, an afterbody, at least one independently adjustable activatable or deployable flow effector mounted so as to have stillness
1. A method of increasing both the range and the precision of a munition comprising: firing or launching from a smooth-bore barrel a g-hardened munition comprising a forebody, an afterbody, at least one independently adjustable activatable or deployable flow effector mounted so as to have stillness relative to the munition on launch and adapted to extend the range and enhance the precision of the munition, at least one g-hardened actuator corresponding to the at least one flow effector, a g-hardened sensor suite comprising at least one accelerometer, at least one gyroscope, and at least one infrared (IR) sensor, each sensor having a signal, and a g-hardened microcontroller adapted to process the signals from the sensors and provide an output to actuate and control the at least one flow effector;activating or deploying the at least one flow effector during flight, andindependently adjusting or controlling the at least one flow effector based at least in part on the output of the microcontroller and sensor signals resulting in increasing both the range and the precision of the munition, wherein the munition experiences a launch or firing acceleration of more than 10,000 g's. 2. The method of claim 1, wherein the munition experiences a launch or firing acceleration of more than 16,000 g's. 3. The method of claim 1, wherein the munition experiences a launch or firing acceleration of more than 18,000 g's. 4. The method of claim 1, wherein step of independently adjusting or controlling the at least one flow effector is performed by independently adjusting the angle of attack of the canards using a geared transmission located inside of the munition body to stabilize the munition to eliminate spin and lift the munition forebody with respect to the afterbody. 5. The method of claim 1, wherein the sensor suite further comprises a global positioning system (GPS) sensor. 6. The method of claim 5, wherein the microcontroller is further adapted to determine the munition's relative position with respect to a moving target or target location and to adjust the flow effectors to redirect the munition towards the target or target location. 7. The method of claim 1, wherein the sensor suite further comprises a pressure sensor, shear stress sensor of inertial measurement system adapted to measure flow dynamics on a flow surface of the munition, and the flow effectors are independently adjusted based further in part on the measured flow dynamics. 8. A method of increasing both the range and the precision of a munition comprising: firing or launching from a smooth-bore barrel a g-hardened munition comprising a forebody, an afterbody, at least two independently adjustable activatable or deployable flow effectors mounted so as to have stillness relative to the munition on launch and adapted to extend the range and enhance the precision of the munition, at least one g-hardened actuator corresponding to each of the at least two flow effectors, a g-hardened sensor suite comprising at least one accelerometer, at least one gyroscope, and at least one infrared (IR) sensor, each sensor having a signal, and a g-hardened microcontroller adapted to process the signals from the sensors and provide an output to actuate and control the at least two flow effectors; andactivating or deploying the at least two flow effectors independently during flight, and independently adjusting or controlling the at least two flow effectors based at least in part on the output of the microcontroller and sensor signals resulting in increasing both the range and the precision of the munition, wherein the munition experiences a launch or firing acceleration of more than 10,000 g's, at least one of the at least two flow effectors is a canard positioned on the munition forebody. 9. The method of claim 8, wherein the munition experiences a launch or firing acceleration of more than 16,000 g's. 10. The method of claim 8, wherein the munition experiences a launch or firing acceleration of more than 18,000 g's. 11. The method of claim 8, wherein the angles of attack of the at least two flow effectors are independently adjusted or controlled after activation or deployment by a beveled gear reduction mechanism corresponding to each flow effector located inside of the munition body. 12. The method of claim 8, wherein the sensor suite further comprises a global positioning system (GPS) sensor. 13. The method of claim 12, wherein the microcontroller is further adapted to determine the munition's relative position with respect to a moving target or target location and to adjust the flow effectors to redirect the munition towards the target or target location. 14. The method of claim 8, wherein the sensor suite further comprises a pressure sensor, shear stress sensor of inertial measurement system adapted to measure flow dynamics on a flow surface of the munition, and the flow effectors are independently adjusted based further in part on the measured flow dynamics. 15. A method of increasing both the range and the precision of a munition comprising: firing or launching from a smooth-bore barrel a g-hardened munition comprising a forebody, an afterbody, at least two independently adjustable activatable or deployable flow effectors mounted so as to have stillness relative to the munition on launch and adapted to extend the range and enhance the precision of the munition, at least one g-hardened actuator corresponding to each of the at least two flow effectors, a g-hardened sensor suite comprising at least one accelerometer, at least one gyroscope, and at least one infrared (IR) sensor, each sensor having a signal, and a g-hardened microcontroller adapted to process the signals from the sensors and provide an output to actuate and control the at least two flow effectors;activating or deploying the at least two flow effectors independently during flight, and independently adjusting or controlling the at least two flow effectors based at least in part on the output of the microcontroller and sensor signals resulting in increasing both the range and the precision of the munition,wherein the munition experiences a launch or firing acceleration of more than 10,000 g's, at least one of the at least two flow effectors is a canard positioned on the munition forebody, and the angles of attack of the at least two flow effectors are independently adjusted or controlled after activation or deployment by a beveled gear reduction mechanism corresponding to each flow effector located inside of the munition body. 16. The method of claim 15, wherein the munition experiences a launch or firing acceleration of more than 16,000 g's. 17. The method of claim 15, wherein the munition experiences a launch or firing acceleration of more than 18,000 g's. 18. The method of claim 15, wherein the sensor suite further comprises a global positioning system (GPS) sensor. 19. The method of claim 18, wherein the microcontroller is further adapted to determine the munition's relative position with respect to a moving target or target location and to adjust the flow effectors to redirect the munition towards the target or target location. 20. The method of claim 15, wherein the sensor suite further comprises a pressure sensor, shear stress sensor of inertial measurement system adapted to measure flow dynamics on a flow surface of the munition, and the flow effectors are independently adjusted based further in part on the measured flow dynamics.
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이 특허에 인용된 특허 (8)
Goulding Kenneth (Stevenage GB2), Deployment and actuation mechanisms.
Vasudevan, Srikanth; Suchy, Paul; Birch, Matthew C., Methods for extended-range, enhanced-precision gun-fired rounds using g-hardened flow control systems.
Vasudevan, Srikanth; Suchy, Paul; Birch, Matthew C., Methods for extended-range, enhanced-precision gun-fired rounds using g-hardened flow control systems.
Barnard, Harry R.; Thomas, Toby D., System, method and computer program product for providing for a course vector change of a multiple propulsion rocket propelled grenade.
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