Claims
- 1. An apparatus comprising:
a plurality of segments; a plurality of articulating joints individually interconnecting at least a portion of said segments; a plurality of leg mechanisms operably coupled to each of said plurality of segments, said plurality of leg mechanisms generally disposed about a periphery of each of said plurality of segments to provide traction at any position about said periphery; a power source; and a power transmission system interconnecting said power source and at least a portion of said leg mechanisms to drive said at least a portion of said leg mechanisms.
- 2. The apparatus according to claim 1 wherein each of said plurality of leg mechanisms comprises:
an input shaft operably coupled to said power transmission system; a drive gear fixed for rotation with said input shaft, said drive gear having a pivot pin; a driven gear enmeshingly engaging said drive gear, said driven gear having a cam pin; a leg member having an aperture and a cam slot, said pivot pin of said drive gear being pivotally disposed within said aperture and said cam pin of said driven gear being slidably disposed within said cam slot; and a foot member coupled to said leg member.
- 3. The apparatus according to claim 2 wherein said foot member is generally arcuate in shape and defines a first radius of curvature.
- 4. The apparatus according to claim 3 wherein said first radius of curvature is less than a radius of curvature swept about a maximum outside diameter of the apparatus.
- 5. The apparatus according to claim 1 wherein each of said plurality of segments is identical and interchangeable.
- 6. The apparatus according to claim 1, further comprising:
a head segment coupled to one of said plurality of segments; and a controller mounted in said head segment, said controller driving said plurality of leg mechanisms.
- 7. The apparatus according to claim 6, further comprising:
a sensor system for gathering data, said sensor system being in communication with said controller.
- 8. The apparatus according to claim 1 wherein said power transmission system comprises:
a plurality of drive members individually extending through each of said plurality of segments, each of said plurality of drive members driving at least a corresponding one of said plurality of leg mechanisms; and a plurality of universal joints pivotally interconnecting said plurality of drive members in series, thereby defining a continuous drive train driven by said power source.
- 9. The apparatus according to claim 1 wherein each of said plurality of articulating joints includes at least two degrees of freedom, each of said degrees of freedom being actuated by a separate actuator.
- 10. The apparatus according to claim 1 wherein said power transmission system drives said at least a portion of said leg mechanisms in an alternating tripod gait.
- 11. The apparatus according to claim 1 wherein said power transmission system drives said at least a portion of said leg mechanisms in a worm-like gait.
- 12. A robotic device comprising:
a plurality of segments pivotally interconnected to form an elongated member; a plurality of leg mechanisms operably coupled to each of said plurality of segments, said plurality of leg mechanisms generally disposed generally continuously about a periphery of each of said plurality of segments to provide traction at any position about said periphery; a power source; an articulating drive shaft rotatably driven by said power source; and a power transmission system interconnecting said articulating drive shaft and at least a portion of said leg mechanisms to drive said plurality of leg mechanisms.
- 13. The robotic device according to claim 12 wherein each of said plurality of leg mechanisms comprises:
an input shaft; a gearset operably coupled to said articulating drive shaft, said gearset rotatably driving said input shaft; a drive gear fixed for rotation with said input shaft, said drive gear having a pivot pin; a driven gear enmeshingly engaging said drive gear, said driven gear having a cam pin; a leg member having an aperture and a cam slot, said pivot pin of said drive gear being pivotally disposed within said aperture and said cam pin of said driven gear being slidably disposed within said cam slot; and a foot member coupled to an end of said leg member.
- 14. The robotic device according to claim 13 wherein said foot member is generally arcuate in shape and defines a first radius of curvature, said first radius of curvature being less than a radius of curvature swept about a maximum outside diameter of the robotic device.
- 15. The robotic device according to claim 12 wherein each of said plurality of segments is identical and interchangeable.
- 16. The robotic device according to claim 12, further comprising:
a head segment coupled to one of said plurality of segments; a controller mounted in said head segment, said controller driving said plurality of leg mechanisms; and a sensor system mounted in said head segment, said sensor system being in communication with said controller.
- 17. The robotic device according to claim 12 wherein said articulating drive shaft comprises:
a plurality of drive members individually extending through each of said plurality of segments, each of said plurality of drive members driving at least a corresponding one of said plurality of leg mechanisms; and a plurality of universal joints pivotally interconnecting said plurality of drive members in series, thereby defining a continuous drive train driven by said power source.
- 18. The robotic device according to claim 12 wherein said power transmission system drives said plurality of leg mechanisms in an alternating tripod gait.
- 19. The robotic device according to claim 12 wherein said power transmission system drives said plurality of leg mechanisms in a worm-like gait.
- 20. A robotic device for traversing obstacles, said robotic device comprising:
a plurality of segments pivotally interconnected to form an elongated member; a plurality of leg mechanisms operably coupled to each of said plurality of segments, said plurality of leg mechanisms generally disposed generally continuously about a periphery of each of said plurality of segments to provide traction at any position about said periphery; a power source; an articulating drive shaft rotatably driven by said power source; a power transmission system interconnecting said articulating drive shaft and at least a portion of said leg mechanisms to drive said plurality of leg mechanisms; a head segment coupled to one of said plurality of segments; a controller mounted in said head segment, said controller driving said plurality of leg mechanisms; and a sensor system mounted in said head segment, said sensor system being in communication with said controller.
- 21. The robotic device according to claim 20 wherein each of said plurality of leg mechanisms comprises:
an input shaft; a gearset operably coupled to said articulating drive shaft, said gearset rotatably driving said input shaft; a drive gear fixed for rotation with said input shaft, said drive gear having a pivot pin; a driven gear enmeshingly engaging said drive gear, said driven gear having a cam pin; a leg member having an aperture and a cam slot, said pivot pin of said drive gear being pivotally disposed within said aperture and said cam pin of said driven gear being slidably disposed within said cam slot; and a foot member coupled to an end of said leg member.
- 22. The robotic device according to claim 21 wherein said foot member is generally arcuate in shape and defines a first radius of curvature, said first radius of curvature being less than a radius of curvature swept about a maximum outside diameter of the robotic device.
- 23. The robotic device according to claim 20 wherein each of said plurality of segments is identical and interchangeable.
- 24. The robotic device according to claim 20 wherein said articulating drive shaft comprises:
a plurality of drive members individually extending through each of said plurality of segments, each of said plurality of drive members driving at least a corresponding one of said plurality of leg mechanisms; and a plurality of universal joints pivotally interconnecting said plurality of drive members in series, thereby defining a continuous drive train driven by said power source.
- 25. The robotic device according to claim 20 wherein said power transmission system drives said plurality of leg mechanisms in an alternating tripod gait.
- 26. The robotic device according to claim 20 wherein said power transmission system drives said plurality of leg mechanisms in a worm-like gait.
STATEMENT OF GOVERNMENTAL SUPPORT
[0001] This invention was made with Government support under Grant No. DE-FG02-86NE37969 awarded by the Defense Advanced Research Projects Agency. The Government has certain rights in this invention.