초록 ▼

Incremental automotive transportation to a person wearing a pair of identical motorized shoes is described. Each shoe houses in its sole an assembly of electrically powered set of wheels clasped over longitudinally by a conveyor from heel to toe. The assembly, skewed at an adjustable angle from the

Incremental automotive transportation to a person wearing a pair of identical motorized shoes is described. Each shoe houses in its sole an assembly of electrically powered set of wheels clasped over longitudinally by a conveyor from heel to toe. The assembly, skewed at an adjustable angle from the longitude towards the instep, is initially in an elevated no-contact position with an underlying surface. When lowered and switched on, the assembly operates and transports the shoe forward, which is in contact with the surface through it only. The assembly is designed to neutralize forces acting to disrupt its operation during walking while the sole is equipped to provide stability by absorbing impacts. Further, multiple assemblies can be housed in one sole wherein some of them can be tilted, twisted, reflexively twisted, recessed and all have electronic sensors. Additionally, all electro-mechanical operations can be remote and computer controlled.

대표청구항 ▼

1. A powered motorized shoe to provide a supplementary increase in a user's speed of movement for an interval of time when a sole of the shoe is in contact with an underlying surface, wherein the sole of the shoe comprises: a first mechanical assembly in a toe section of the shoe comprising a first

1. A powered motorized shoe to provide a supplementary increase in a user's speed of movement for an interval of time when a sole of the shoe is in contact with an underlying surface, wherein the sole of the shoe comprises: a first mechanical assembly in a toe section of the shoe comprising a first conveyor composed of a first track and wheel set;a second mechanical assembly in a heel section of the shoe comprising a second conveyor composed of a second track and wheel set, wherein the first track does not extend into the heel section of the shoe and the second track does not extend into the toe section of the shoe so that the first and second tracks can be oriented along different planes while a user of the shoe is exercising a walking motion, at least one of the first mechanical assembly and the second mechanical assembly being configured to apply a locomotive force to the underlying surface;a motor coupled to the at least one of the first mechanical assembly and the second mechanical assembly to supply the locomotive force. 2. A powered motorized shoe as in claim 1, wherein the motor is coupled to both of the first mechanical assembly and the second mechanical assembly and wherein a speed of the motor is the same when the first mechanical assembly and the second mechanical assembly apply the locomotive force to the underlying surface. 3. A powered motorized shoe as in claim 1, wherein the first track in the first mechanical assembly is substantially aligned with the second track in the second mechanical assembly. 4. A powered motorized shoe as in claim 1, wherein the conveyor in the second mechanical assembly includes a mechanism to allow the conveyor to continue moving at a constant speed despite an intermittent opposing force or an intermittent supplementing force. 5. A powered motorized shoe as in claim 1, wherein a length of the first mechanical assembly is unequal to the length of the second mechanical assembly. 6. A powered motorized shoe as in claim 1, wherein a least the second mechanical assembly is configured to oppose a backlash to the locomotive movement of the mechanical assembly when the assembly initially contacts the underlying surface. 7. A powered motorized shoe as in claim 1, wherein the user, when wearing the shoe walks with normal walking action. 8. A powered motorized shoe as in claim 1, wherein the shoe adds velocity to an existing movement force provided by the user. 9. A pair of electrically powered motorized shoes to provide a supplementary increase in a user's speed of movement for a time interval when a sole of each shoe is in contact with an underlying surface, wherein each shoe sole comprises: a conveyor mechanical assembly composed of first and second track and wheel sets, the first and second tracks configured to contact the underlying surface, the first track in the heel section and not extending into the toe section and the second track in the toe section and not extending into the heel section so that the first and second tracks can be oriented in different planes when a user is exercising a walking motion;a motor coupled to the conveyor mechanical assembly to apply a locomotive force to the underlying surface; anda computer coupled to the motor and in communication with another shoe of the pair to synchronize the locomotive force between the pair of shoes. 10. A pair of electrically powered motorized shoes as in claim 9, wherein the communication between the pair of shoes is wireless. 11. A pair of electrically powered motorized shoes as in claim 9, wherein the computer controls the speed of the mechanical assembly in each shoe to be synchronous. 12. A pair of electrically powered motorized shoes as in claim 9, further comprising at least one sensor in a first shoe of the pair to determine the speed of the user or a pressure pattern of the user's foot, wherein the computer controls the speed of a first conveyor mechanical assembly in the first shoe in response to a determined speed or pressure pattern and communicates the controlled speed to a second shoe of the pair to synchronize the speed of a second conveyor mechanical assembly in the second shoe with the speed of the first conveyor mechanical assembly. 13. A pair of electrically powered motorized shoes as in claim 9, wherein the mechanical assembly is configured to oppose a backlash to the locomotive movement of the conveyor mechanical assembly when the assembly initially contacts the underlying surface. 14. A pair of electrically powered motorized shoes as in claim 9, wherein the user, when wearing the shoe walks with normal walking action. 15. A pair of electrically powered motorized shoes as in claim 9, wherein the shoe adds velocity to an existing movement force provided by the user. 16. A powered motorized shoe to provide a supplementary increase in a user's speed of movement for a time interval when a sole of the shoe is in contact with an underlying surface, wherein the sole of the shoe comprises: a conveyor mechanical assembly composed of first and second track and wheel sets, the first and second tracks configured to contact the underlying surface, the first track in the heel section and not extending into the toe section and the second track in the toe section and not extending into the heel section so that the first and second tracks can be oriented in different planes when a user is exercising a walking motion;a motor coupled to the conveyor mechanical assembly to supply a locomotive force to the underlying surface through the conveyor mechanical assembly;one or more sensors housed in the shoe to determine an intended speed of the user; anda computer coupled to the one or more sensors and coupled to the motor to control the supplementary increase in the user's speed of movement in response to the determined intended speed of the user. 17. A powered motorized shoe as in claim 16, wherein the one or more sensors include a sensor to determine a pressure pattern of the user's foot. 18. A powered motorized shoe as in claim 16, wherein the one or more sensors include a sensor to determine a speed. 19. A powered motorized shoe as in claim 16, wherein the computer controls the supplementary increase in the user's speed of locomotion in response to the determined pressure pattern of the user's foot to deduce the user's intention. 20. A powered motorized shoe as in claim 16, wherein the mechanical assembly includes a plurality of conveyors and the computer controls the speed of each of the plurality of conveyors synchronously. 21. A powered motorized shoe as in claim 16, wherein the user, when wearing the shoe walks with normal walking action. 22. A powered motorized shoe as in claim 16, wherein the shoe adds velocity to an existing movement force provided by the user.