초록 ▼

An apparatus for the purpose of floatation and transportation on water comprises a pair of buoyant wing-shaped floats and foot wells in the floats designed to be under the center of buoyancy of each float. Accessories may be attached to one or more floats. Additional novel features and aspects of t

An apparatus for the purpose of floatation and transportation on water comprises a pair of buoyant wing-shaped floats and foot wells in the floats designed to be under the center of buoyancy of each float. Accessories may be attached to one or more floats. Additional novel features and aspects of the invention are disclosed herein.

대표청구항 ▼

What I claim as my invention is: 1. A water walking apparatus for use by a user for moving in a direction, comprising: a first buoyant float for the user's left foot and a second buoyant float for the user's right foot, each buoyant float further comprising: a flap having a leading edge and a trail

What I claim as my invention is: 1. A water walking apparatus for use by a user for moving in a direction, comprising: a first buoyant float for the user's left foot and a second buoyant float for the user's right foot, each buoyant float further comprising: a flap having a leading edge and a trailing edge, said flap being articulated to the buoyant float by an articulation, said articulation having an axis of rotation located within the first 25% of the distance between said leading edge and said trailing edge of said flap; said articulation allowing said flap to rotate between a high resistance orientation, in which the flap is approximately perpendicular to the direction and said trailing edge is above said leading edge, and a low resistance orientation, in which the flap is approximately parallel to the direction and in which the trailing edge is lower than in the high resistance orientation, wherein the flap has a positive buoyant moment, wherein said buoyant moment of said flap exerts a torque on said flap so as to rotate said flap toward the high resistance orientation, and wherein the flap's mass density is generally a gradient, said gradient decreasing in magnitude from said leading edge to said trailing edge. 2. The apparatus of claim 1, wherein the flap is buoyant. 3. A water walking apparatus for use by a user for moving in a direction, comprising: a first buoyant float for the user's left foot and a second buoyant float for the user's right foot, each buoyant float further comprising: a flap having a leading edge and a trailing edge, said flap being articulated to the buoyant float by an articulation, said articulation having an axis of rotation located within the first 25% of the distance between said leading edge and said trailing edge of said flap; said articulation allowing said flap to rotate between a high resistance orientation, in which the flap is approximately perpendicular to the direction and said trailing edge is above said leading edge, and a low resistance orientation, in which the flap is approximately parallel to the direction and in which the trailing edge is lower than in the high resistance orientation, and a torque generating mechanism comprising an elastic material that is associated with said flap, said material being least stressed when said flap is in said high resistance orientation, said material further exerting torque on said flap, said torque directed so as to rotate said flap toward the high resistance orientation. 4. The apparatus of claim 3, wherein the flap is buoyant. 5. A human powered apparatus for use by a user for the purpose of floatation and transportation on water in a direction, comprising: a first buoyant float and a second buoyant float, each of said first buoyant float and said second buoyant float comprising a center of buoyancy, a bow, and a stern, and further comprising: a substantially straight and generally flat side running from said bow to said stern; a substantially convex side running from said bow to said stern; a bottom side in watertight connection with said substantially straight side and said substantially convex side; a top surface; and a foot well for housing said user's foot and ankle, said foot well disposed through said top surface of said buoyant float and extending toward said bottom side, said foot well further located to position said user's ankle substantially in vertical alignment with the center of buoyancy, and said foot well further comprising a bottom surface that is below said center of buoyancy; a tether connecting said first buoyant float, at substantially the height of the user's ankle when said user's foot is in the foot well of said first buoyant float, to said second buoyant float, at substantially the height of the user's ankle when said user's foot is in the foot well of said second buoyant float, said first buoyant float further comprising: a track disposed parallel to the water on said substantially straight and generally flat side; and an attachment rider adapted for traversing said track and for accepting said tether wherein said rider traverses said track when pulled by said tether. 6. A human powered apparatus for use by a user for the purpose of floatation and transportation on water in a direction, comprising: a first buoyant float and a second buoyant float, each of said first buoyant float and said second buoyant float comprising a center of buoyancy, a bow, and a stern, and further comprising: a substantially straight and generally flat side running from said bow to said stern; a substantially convex side running from said bow to said stern; a bottom side in watertight connection with said substantially straight side and said substantially convex side; a top surface; and a foot well for housing said user's foot and ankle, said foot well disposed through said top surface of said buoyant float and extending toward said bottom side, said foot well further located to position said user's ankle substantially in vertical alignment with the center of buoyancy, and said foot well further comprising a bottom surface that is below said center of buoyancy; a tether connecting said first buoyant float to said second buoyant float, said tether further comprising a first cable comprising two ends, said two ends attached to said substantially straight and generally flat side of said first buoyant float at two locations at the approximate predicted height of the user's ankle in said foot well of said first buoyant float, further comprising a friction reducing agent coated on said first cable; and a second cable intertwined at least once through said first cable, said second cable further comprising two ends attached to said substantially straight and generally flat side of said second buoyant float at two locations at the approximate predicted height of the user's ankle in said foot well of said second buoyant float. 7. A human powered apparatus for use by a user for the purpose of floatation and transportation on water in a direction, comprising: a first buoyant float and a second buoyant float, each of said first buoyant float and said second buoyant float comprising a center of buoyancy, a bow, and a stern, and further comprising: a substantially straight and generally flat side running from said bow to said stern; a substantially convex side running from said bow to said stern; a bottom side in watertight connection with said substantially straight side and said substantially convex side; a top surface; and a foot well for housing said user's foot and ankle, said foot well disposed through said top surface of said buoyant float and extending toward said bottom side, said foot well further located to position said user's ankle substantially in vertical alignment with the center of buoyancy, and said foot well further comprising a bottom surface that is below said center of buoyancy; a tether connecting said first buoyant float to said second buoyant float, said tether further comprising an adjustable attachment device, said adjustable attachment device connecting at least one of said two ends of said tether to said first buoyant float, wherein said adjustable attachment device can be used by a user to adjust the separation between said first float and said second float, and wherein the adjustable attachment is at the approximate height of the user's ankle when the user's foot is in the foot well of the first buoyant float. 8. A human powered apparatus for use by a user for the purpose of floatation and transportation on water in a direction, comprising: a first buoyant float and a second buoyant float, each of said first buoyant float and said second buoyant float comprising a center of buoyancy, a bow, and a stern, and further comprising: a substantially straight and generally flat side running from said bow to said stern; a substantially convex side running from said bow to said stern; a bottom side in watertight connection with said substantially straight side and said substantially convex side; a top surface; and a foot well for housing said user's foot and ankle, said foot well disposed through said top surface of said buoyant float and extending toward said bottom side, said foot well further located to position said user's ankle substantially in vertical alignment with the center of buoyancy, and said foot well further comprising a bottom surface that is below said center of buoyancy; and said first buoyant float further comprising one or more accessory attachment interface adaptations for attaching an accessory associated with said first buoyant float, said accessory comprising a propulsion mechanism retraction interface located at the stern of said first buoyant float and adapted to facilitate the retractable attachment to said float of a propulsion mechanism that is operational when it is at least partially immersed in the water and not operational when it is substantially retracted from the water, said retraction interface comprising: a pivot bracket attached to said first buoyant float and adapted to pivotally connect to said propulsion mechanism; a fixed anchor point attached to said first buoyant float; a retention spring adapted for connection between said propulsion mechanism and said fixed anchor point; wherein when a propulsion mechanism is attached to said pivot bracket and said retention spring, said retention spring is stressed, and said stressed retention spring generates a force on said propulsion mechanism directed to keep said propulsion mechanism at least partially immersed in water, wherein said propulsion mechanism can pivot between being at least partially immersed in water and substantially retracted from water in response to torque. 9. A human powered apparatus for use by a user for the purpose of floatation and transportation on water in a direction, comprising: a first buoyant float and a second buoyant float, each of said first buoyant float and said second buoyant float comprising a center of buoyancy, a bow, and a stern, and further comprising: a substantially straight and generally flat side running from said bow to said stern; a substantially convex side running from said bow to said stern; a bottom side in watertight connection with said substantially straight side and said substantially convex side; a top surface; and a foot well for housing said user's foot and ankle, said foot well disposed through said top surface of said buoyant float and extending toward said bottom side, said foot well further located to position said user's ankle substantially in vertical alignment with the center of buoyancy, and said foot well further comprising a bottom surface that is below said center of buoyancy, each buoyant float further comprising a flap having a leading edge and a trailing edge, said flap articulated to said buoyant float by an articulation, said articulation having an axis of rotation located within the first 25% of the distance between said leading edge and said trailing edge of said flap; said articulation allowing said flap to rotate between a high resistance orientation, in which the flap is substantially perpendicular to the direction and said trailing edge is above said leading edge, and a low resistance orientation, in which the flap is approximately parallel to the direction and in which the trailing edge is lower than in the high resistance orientation. 10. The apparatus of claim 9, wherein the flap of each buoyant float has a positive buoyant moment, wherein said buoyant moment of said flap exerts a torque on said flap toward the high resistance orientation. 11. The apparatus of claim 10, wherein the flap's mass density is generally a gradient, said gradient decreasing in magnitude from said leading edge to said trailing edge. 12. The apparatus of claim 9, wherein the flap is buoyant. 13. The apparatus of claim 9, further comprising a torque generating mechanism comprising a elastic material that is associated with said flap, said material being least stressed when said flap is in said high resistance orientation, said material further exerting torque on said flap, said torque directed so as to rotate said flap toward the high resistance orientation. 14. The apparatus of claim 9, further comprising a rotation limiting mechanism for preventing the flap from rotating beyond a limit position approximately perpendicular to said direction, said limit position being the high resistance orientation. 15. The apparatus of claim 9, further comprising a rotation limiting mechanism for preventing the flap from rotating beyond a downward limit position in which said trailing edge is at or below its position when said flap is in the low resistance orientation, said downward limit position limiting the flap from rotating beyond a position approximately perpendicular to said direction in which the leading edge is below the trailing edge. 16. The apparatus of claim 9, wherein the flap has an axis of rotation that is both within 45 degrees of horizontal and substantially perpendicular to said direction and said flap is movable in a space behind said axis, said space being away from the direction of travel. 17. The apparatus of claim 9, each buoyant float further comprising a torque generating mechanism associated with said flap, said mechanism comprising a stressed material exerting torque on said flap, said torque directed so as to rotate said flap toward the high resistance orientation.