초록 ▼

A vortex cannon based on pulse detonation engine comprises a combustion chamber, a fuel source, an oxidizer source, a purge gas source, a valve allowing delivery of fuel from the fuel source to the combustion chamber, a valve allowing deliver of either oxidizer or purge gas from the oxidizer and pur

A vortex cannon based on pulse detonation engine comprises a combustion chamber, a fuel source, an oxidizer source, a purge gas source, a valve allowing delivery of fuel from the fuel source to the combustion chamber, a valve allowing deliver of either oxidizer or purge gas from the oxidizer and purge gas sources to the combustion chamber, an ignition source for the combustion chamber for initiating detonation of fuel and oxidizer, and a conical barrel outlet from the combustion chamber. The combustion chamber is configured for control over the detonation front. A control system provides for varying the rate and quantity of fuel and oxidizer injected to the combustion chamber for varying the frequency and strength of pulse generation. Ring vortices may be generated either in single pulses or at high rates of fire which maintain a consistent track.

대표청구항 ▼

1. An acoustically efficient vortex cannon comprising: a combustion chamber;a fuel source;an oxidizer source;a purge gas source;at least one valve for delivery of fuel from the fuel source to the combustion chamber;at least one valve for delivery of either oxidizer or purge gas from the oxidizer and

1. An acoustically efficient vortex cannon comprising: a combustion chamber;a fuel source;an oxidizer source;a purge gas source;at least one valve for delivery of fuel from the fuel source to the combustion chamber;at least one valve for delivery of either oxidizer or purge gas from the oxidizer and purge gas sources to the combustion chamber;an ignition source for the combustion chamber for initiating detonation of fuel and oxidizer;an outlet from the combustion chamber;a conical pulse guide coupled to said outlet;a secondary pulse guide spaced radially outside of said conical pulse guide, said secondary pulse guide substantially surrounding an outer surface of said conical pulse guide; anda throat directly coupled to the outlet of the combustion chamber and an inlet of the conical pulse guide, wherein said conical pulse guide has a muzzle, the conical pulse guide being fluidically coupled to the outlet from the combustion chamber, said secondary pulse guide also being fluidically coupled to the outlet from the combustion chamber; anda mouth from the secondary pulse guide located radially outside the muzzle and oriented to elect gas radially outwardly from a center line through the muzzle. 2. The acoustically efficient vortex cannon as claimed in claim 1, wherein the at least one valve for delivery of fuel is a plurality of valves connecting the fuel source to the combustion chamber, the at least one valve for delivery of either oxidizer or purge gas includes a plurality of valves connecting the oxidizer source to the combustion chamber, the fuel and oxidizer valves being independently actuatable. 3. The acoustically efficient vortex cannon as claimed in claim 2, further comprising: a cylindrical wall forming part of the combustion chamber; a combustion chamber head closing one end of the cylindrical wall; and the pluralities of valves connecting the oxidizer source and the fuel source to the combustion chamber being arranged radially through said cylindrical combustion chamber wall and located substantially adjacent the combustion chamber head. 4. The acoustically efficient vortex cannon as claimed in claim 3, further comprising: a triggering control system providing for operating the pluralities of valves connecting the fuel source and the oxidizer source to the combustion chamber concurrently for increasing detonation intensity and the triggering control system further providing for staggered operation of sets of valves connecting the fuel source and the oxidizer source to the combustion chamber for reducing detonation intensity while allowing increased firing frequency. 5. The acoustically efficient vortex cannon as claimed in claim 3, further comprising: a triggering control system including a fuel and oxidizer mixing map and spark map allowing operator control over ignition frequency. 6. The acoustically efficient vortex cannon as claimed in claim 1, wherein the conical pulse guide having has a length tuned to propagation of a detonation front through the combustion chamber. 7. The acoustically efficient vortex cannon as claimed in claim 6, further comprising: the mouth located around the muzzle, said mouth being annular and at an end of said secondary pulse guide. 8. The acoustically efficient vortex cannon as claimed in claim 1, wherein said secondary pulse guide is located a generally uniform distance outside of the conical pulse guide. 9. A pulse detonation engine having high acoustical efficiency, comprising: a combustion chamber;a fuel source;an oxidizer source;a valve system metering delivery of fuel from the fuel source to the combustion chamber;a valve system for metering delivery of oxidizer from the oxidizer source to the combustion chamber;an ignition source for the combustion chamber for initiating detonation of fuel and oxidizer;an outlet from the combustion chamber;a conical pulse guide coupled to said outlet;a secondary pulse guide spaced radially outside of said conical pulse guide, said secondary pulse guide substantially surrounding an outer surface of said conical pulse guide;a throat directly coupled to the outlet of the combustion chamber and an inlet of the conical pulse guide, wherein said conical pulse guide has a muzzle, the conical pulse guide being fluidically coupled to the outlet from the combustion chamber, said secondary pulse guide also being fluidically coupled to the outlet from the combustion chamber; anda mouth from the secondary pulse guide located radially outside the muzzle and oriented to elect gas radially outwardly from a center line through the muzzle; anda control system responsive to operator inputs for generating control signals to deliver oxidizer and fuel to the combustion chamber for an isolated or for repeating detonations, the control system being further responsive to operator inputs for varying the strength of detonations and the frequency of detonations. 10. The pulse detonation engine as claimed in claim 9, wherein said conical pulse guide has a radial shear former located around the muzzle. 11. The pulse detonation engine as claimed in claim 9, the control system being further responsive to operator inputs for varying shock wave intensity through control over the fuel to oxidizer mixture ratio. 12. The pulse detonation engine as claimed in claim 9, further comprising: a purge gas source connected to the oxidizer valve system; and the control system being further adapted to insert purge gas to the combustion chamber for effectively clearing inlet ports from the oxidizer valve system to the combustion chamber of oxidizer and to cool the combustion chamber between detonation events. 13. The pulse detonation engine as claimed in claim 12, wherein compressed air is used as the purge gas. 14. The pulse detonation engine as claimed in claim 11, further comprising: the control system being further adapted to stagger operation of metering valves for oxidizer and fuel to increase the frequency of detonations.