A leg scooter device having a platform to receive the foot of a user that is positioned between forward and aft wheels. An ascending member extends above the platform and contacts the lower leg of a user during use. It is through the lower leg's contact with the ascending member and the placement of
A leg scooter device having a platform to receive the foot of a user that is positioned between forward and aft wheels. An ascending member extends above the platform and contacts the lower leg of a user during use. It is through the lower leg's contact with the ascending member and the placement of one or both of the user's feet on the platform that the user “senses” the devices and controls it. The ascending member may be movable and/or configured to be biased toward contact with the user. Various embodiments are disclosed.
대표청구항▼
1. A leg scooter device, comprising: at least a first turnable front wheel and at least a first fixed position rear wheel;a non-stirruped foot platform located between the front wheel and the rear wheel that has a substantially unencumbered top surface for ready placement of at least a rider's front
1. A leg scooter device, comprising: at least a first turnable front wheel and at least a first fixed position rear wheel;a non-stirruped foot platform located between the front wheel and the rear wheel that has a substantially unencumbered top surface for ready placement of at least a rider's front foot substantially parallel with the line of direction of travel of the device; andan ascending control member having a first end that is coupled proximate a front portion of the foot platform and a second end that ascends upwardly from the platform in use;a recessed shin contact surface that is coupled toward the second end of the ascending control member and is positioned such that when a rider places his or her front foot on the platform in the line of direction of travel and bends his or her ankle joint forward, a lower leg of that rider contacts the recessed contact surface;wherein the ascending control member and the recessed contact surface are configured such that the recessed contact surface may be moved forward by the force of a rider's lower leg against the recessed contact surface, yet be biased to return to an initial in-use position in the absence of the lower leg displacement force, thereby creating an engaging bias to retain engaged contact between the rider's lower front leg and the contact surface as that lower leg moves in response to bending of the rider's ankle. 2. The leg scooter of claim 1, wherein the ascending control member is mounted with a biased pivot joint that allows movement of the ascending control member via the pivot and provides the engaging bias. 3. The leg scooter of claim 1, wherein the ascending control member is formed of a flexible, elastic material that allows movement of the ascending control member and provides the engaging bias. 4. The leg scooter of claim 1, wherein the recessed contact surface is disposed substantially rearwardly so that a rider moving his or her front lower leg forward may readily and unobstructedly insert that lower leg into contact with the recessed contact surface. 5. The leg scooter of claim 1, further comprising a brake associated with the rear wheel, the brake being activated by a rider applying weight substantially downward through one foot to the brake which is thereby moved into frictional braking contact with the rear wheel. 6. The leg scooter of claim 1, wherein the front wheel is a forward-direction biased caster wheel. 7. The leg scooter of claim 1, further comprising a second turnable front wheel arranged substantially in parallel with the first front wheel, wherein the first front wheel and second front wheel are arranged within the scooter to turn substantially in parallel when the foot platform is tilted laterally. 8. The leg scooter of claim 1, wherein the distance that the ascending control member rises vertically above the foot platform is less than the distance of the front wheel to the rear wheel, measured from the outside of those wheels. 9. The leg scooter of claim 6, wherein the forward direction biased front wheel is a forward tilt caster wheel. 10. A leg scooter device, comprising at least a first turnable front wheel and at least a first fixed position rear wheel;a foot platform provided between the front and rear wheel that is configured for ready placement of at least a rider's front foot substantially parallel with the line of direction of travel of the device;a leg engaging control structure having a first end that is coupled proximate the foot platform and a second end that extends upwardly above the foot platform; anda lower leg contact surface coupled toward the second end of the leg engaging control structure and being configured in shape and oriented substantially rearwardly in position such that when a rider places his or her front foot on the platform in the line of direction of travel of the device and bends his or her ankle joint forward, the lower leg of that rider contacts the lower leg contact surface;wherein the leg engaging control structure and the lower leg contact surface in an upwardly extended in-use position are configured such that the contact surface may be moved forward by the force of the rider's lower leg against the contact surface, yet be biased to return to the initial upwardly extended in-use position in the absence of the lower leg displacement force, thereby creating an engaging bias to retain engaged contact between the rider's lower front leg and the contact surface as that lower leg moves in response to bending of the rider's ankle. 11. The leg scooter of claim 10, wherein the leg engaging control structure is at least one of: mounted with a biased pivot joint that allows movement of the leg engaging control structure via the pivot and provides the engaging bias; andformed of a flexible, elastic material that allows movement of the leg engaging control structure and provides the engaging bias. 12. The leg scooter of claim 10, wherein the foot platform is below a top of the front and rear wheels. 13. The leg scooter of claim 10, further comprising a brake associated with the rear wheel, the brake being activated by a rider applying weight substantially downward through one foot onto the brake which thereby moves the brake into frictional braking contact with the rear wheel. 14. The leg scooter of claim 10, wherein the leg engaging control structure is movable between an upwardly extended in use position and a collapsed stowage position. 15. The leg scooter of claim 10, wherein the first front wheel is a forward-direction biased caster wheel. 16. The leg scooter of claim 10, further comprising second front wheel arranged substantially in parallel with the first front wheel. 17. A leg scooter, comprising: at least a first turnable front wheel and at least a first fixed position rear wheel;a foot platform located between the front wheel and the rear wheel that is configured for ready placement of at least a rider's front foot substantially parallel with the line of direction of travel of the device;an ascending control member having a first end that is coupled proximate the foot platform and a second end that extends upwardly above the first end in use;a lower leg contact surface coupled toward the second end of the ascending control member;wherein the ascending control member is configured to ascend to a height above the foot platform, and the lower leg contact surface is configured in shape and orientation such that when a rider places his or her front foot on the platform in the line of direction of travel of the device and bends his or her ankle joint forward, the lower leg of that rider contacts the lower leg contact surface; andwherein the ascending control member and the lower leg contact surface are configured such that the contact surface may be moved forward by the force of the rider's lower leg against the contact surface, yet be biased to return to an initial in-use position in the absence of the lower leg displacement force, thereby creating an engaging bias to retain engaged contact between the rider's lower front leg and the contact surface as that lower leg moves in response to bending of the rider's ankle; anda brake associated with the rear wheel, the brake being activated by a rider applying weight substantially downward through one of his or her feet onto the brake thereby moving the brake into frictional braking contact with the rear wheel. 18. The leg scooter of claim 17, wherein the lower leg contact surface is disposed substantially rearwardly so as to be appropriately positioned to engage a forwardly moving lower leg of a rider. 19. The leg scooter of claim 18 having at least one of: a forward direction biased caster wheel as the front wheel;a length dimension from front to back in the line of direction of travel that is greater than a height dimension; andthe leg contact surface having a bias force which a rider may apply pressure against to enhance engagement between a rider's lower leg and the leg scooter.
Sullivan Paul J. (300 Metacom Ave. Bristol RI 02809) Behling Fredric C. (657 Exmmor Ct. Crystal Lake IL 60014) Ptaszek George W. (East Ave. Pascoag RI 02859), Child propelled riding toy.
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