A baffled ram accelerator system includes a ram accelerator tube with an inner surface and an outer surface and a plurality of baffles disposed on the inner surface. The plurality of baffles forms a sequential series of propellant chambers along the longitudinal axis of the ram accelerator tube. An
A baffled ram accelerator system includes a ram accelerator tube with an inner surface and an outer surface and a plurality of baffles disposed on the inner surface. The plurality of baffles forms a sequential series of propellant chambers along the longitudinal axis of the ram accelerator tube. An accelerator gun is also disposed on an input end of the ram accelerator tube, and the accelerator gun is positioned to fire a projectile into the ram accelerator tube.
대표청구항▼
1. A ram accelerator system, the system comprising: a ram accelerator tube with an inner surface and an outer surface;a plurality of baffles including uniformly spaced holes disposed on the inner surface of the ram accelerator tube, wherein the plurality of baffles is disposed to form a sequential s
1. A ram accelerator system, the system comprising: a ram accelerator tube with an inner surface and an outer surface;a plurality of baffles including uniformly spaced holes disposed on the inner surface of the ram accelerator tube, wherein the plurality of baffles is disposed to form a sequential series of propellant chambers along the longitudinal axis of the ram accelerator tube, and wherein edges of the uniformly spaced holes have a linear taper; andan accelerator gun disposed on an input end of the ram accelerator tube, wherein the accelerator gun is positioned to fire a projectile into the ram accelerator tube. 2. The ram accelerator system of claim 1, wherein the plurality of baffles is arranged linearly along the longitudinal axis of the ram accelerator tube. 3. The ram accelerator system of claim 1, wherein the plurality of baffles is arranged into a helix along the longitudinal axis of the ram accelerator tube. 4. The ram accelerator system of claim 1, wherein the ram accelerator tube has an output end opposite the input end, and wherein the plurality of baffles is angled toward the output end. 5. The ram accelerator system of claim 1, wherein the ram accelerator tube has an output end opposite the input end, and wherein the plurality of baffles is angled toward the input end. 6. The ram accelerator system of claim 1, further comprising a projectile, wherein the length of the projectile is greater than the distance between two neighboring baffles in the ram accelerator tube. 7. The ram accelerator system of claim 6, wherein the plurality of baffles in the ram accelerator tube is machined to a diameter such that a combustion process in the ram accelerator tube is contained behind the projectile. 8. The ram accelerator system of claim 1, wherein the plurality of baffles extends along only a portion of the inner surface of the ram accelerator tube. 9. The ram accelerator system of claim 8, wherein the plurality of baffles extends from the input end of the ram accelerator tube, opposite an output end of the ram accelerator tube, along only a portion of the inner surface of the ram accelerator tube. 10. The ram accelerator system of claim 8, wherein the plurality of baffles extends from an output end of the ram accelerator tube, opposite the input end of the ram accelerator tube, along only a portion of the inner surface of the ram accelerator tube. 11. The ram accelerator system of claim 1, further comprising rails to guide a projectile, wherein the rails are disposed on the inner surface of the ram accelerator tube between adjacent baffles in the plurality of baffles. 12. The ram accelerator system of claim 11, wherein the projectile includes fins disposed along a periphery of the projectile. 13. The ram accelerator system of claim 1, wherein the plurality of baffles is cut into the inner surface of the ram accelerator tube. 14. The ram accelerator system of claim 13, wherein the cuts used to form the plurality of baffles extend from the inner surface of the ram accelerator tube through the outer surface of the ram accelerator tube, and wherein the cuts are capped on the outer surface the ram accelerator tube. 15. A baffled ram accelerator tube, the baffled ram accelerator tube comprising: a first hollow cylinder; anda second hollow cylinder, wherein the second hollow cylinder is perforated with uniformly spaced holes along the longitudinal axis of the second hollow cylinder, and wherein the second hollow cylinder is disposed within the first hollow cylinder such that the uniformly spaced holes in the second hollow cylinder are capped by the inner surface of the first hollow cylinder to form the baffles, wherein edges of the uniformly spaced holes have a linear taper. 16. The ram accelerator tube of claim 15, wherein the uniformly spaced holes are angled with respect to surface normal of the inner surface of the second hollow cylinder. 17. The ram accelerator tube of claim 15, wherein the uniformly spaced holes are arranged linearly along the longitudinal axis of the second hollow cylinder. 18. The ram accelerator tube of claim 15, wherein the uniformly spaced holes are arranged into a helix along the longitudinal axis of the second hollow cylinder. 19. The ram accelerator tube of claim 15, wherein the uniformly spaced holes are noncircular. 20. The ram accelerator tube of claim 15, wherein the uniformly spaced holes are triangular. 21. A baffled ram accelerator tube, the baffled ram accelerator tube comprising: a first hollow cylinder; anda second hollow cylinder, wherein the second hollow cylinder is perforated with uniformly spaced holes along the longitudinal axis of the second hollow cylinder, and wherein the second hollow cylinder is disposed within the first hollow cylinder such that the uniformly spaced holes in the second hollow cylinder are capped by the inner surface of the first hollow cylinder to form the baffles, wherein baffle diameter decreases in the direction of a center of the second hollow cylinder such that the baffles form a saw-tooth structure.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (19)
Naumann Karl W. (Weil am Rhein DEX), Acceleration apparatus.
Hertzberg Abraham (Bellevue WA) Bruckner Adam P. (Seattle WA) Bogdanoff David W. (Bellevue WA), Apparatus and method for the acceleration of projectiles to hypervelocities.
Hertzberg Abraham (Bellevue WA) Bruckner Adam P. (Seattle WA) Bogdanoff David W. (Mountain View CA) Knowlen Carl (Seattle WA), Method and apparatus for initating stable operation of a ram accelerator.
Hertzberg Abraham (Bellevue WA) Bruckner Adam P. (Seattle WA) Knowlen Carl (Seattle WA) McFall Keith A. (Seattle WA), Method and apparatus for zero velocity start ram acceleration.
Giraud Marc (Saint-Louis La Chaussee FRX) Simon Hubert (Hegenheim FRX), Sabot for projectiles of RAM accelerators and projectiles equipped with such a sabot.
Kepler Charles E. (Manchester CT) Deblois Raymond L. (Tolland CT) Spadaccini Louis J. (Manchester CT), Wake stabilized supersonic combustion ram cannon.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.