Steering assemblies for multi-wheeled vehicles and multi-wheeled vehicles including the steering assemblies
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B62K-005/08
B62M-001/00
B62K-003/00
B62K-021/00
출원번호
US-0938617
(2015-11-11)
등록번호
US-9738342
(2017-08-22)
발명자
/ 주소
Stillinger, Scott H.
Stillinger, Kathryn Kelsey Anne
출원인 / 주소
Acorn Products, LLC
대리인 / 주소
Dascenzo Intellectual Property Law, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
22
초록▼
Multi-wheeled vehicles, such as scooters, may include a body, a rear wheel, and a steering assembly. The steering assembly may include a steering shaft, a wheel support chassis, a first front wheel, and a second front wheel. The wheel support chassis is pivotally coupled to the steering shaft for ro
Multi-wheeled vehicles, such as scooters, may include a body, a rear wheel, and a steering assembly. The steering assembly may include a steering shaft, a wheel support chassis, a first front wheel, and a second front wheel. The wheel support chassis is pivotally coupled to the steering shaft for rotation about a chassis pivot axis. The first and second front wheels are rotatingly coupled to the wheel support chassis about respective rotational axes. The second front wheel is at least substantially inline with the first front wheel and located closer to the rear wheel than the first front wheel when the steering shaft is in a forward straight orientation.
대표청구항▼
1. A scooter, comprising: a body configured to support a rider;a rear wheel rotatingly coupled to the body;a steering assembly that includes: (i) a steering shaft rotationally coupled to the body about a steering pivot axis and configured to permit rotation of the steering assembly about the steerin
1. A scooter, comprising: a body configured to support a rider;a rear wheel rotatingly coupled to the body;a steering assembly that includes: (i) a steering shaft rotationally coupled to the body about a steering pivot axis and configured to permit rotation of the steering assembly about the steering pivot axis among a plurality of steering orientations that includes at least a forward straight orientation, in which the steering assembly is oriented to direct the scooter on a straight, forward trajectory, and a turning orientation, in which the steering assembly is oriented to direct the scooter on a curved trajectory;(ii) a wheel support chassis pivotally coupled to the steering shaft for rotation about a chassis pivot axis;(iii) a first front wheel rotatingly coupled to the wheel support chassis about a first front rotational axis; and(iv) a second front wheel rotatingly coupled to the wheel support chassis about a second front rotational axis, wherein the second front wheel is at least substantially inline with the first front wheel such that a line that extends perpendicular to the first and second front rotational axes intersects the first and second front wheels, and further wherein the second front wheel is located closer to the rear wheel than the first front wheel when the steering shaft is in the forward straight orientation;wherein the scooter defines a neutral orientation when the steering assembly is in the forward straight orientation and the scooter is in an upright orientation on a planar riding surface;wherein in the neutral orientation, the first front wheel forms a first front contact point with the planar riding surface, the second front wheel forms a second front contact point with the planar riding surface, and the rear wheel forms a rear contact point with the planar riding surface;wherein, when the scooter is in the neutral orientation: (i) a first ground contact distance is defined as a minimum distance between the first front contact point and the steering pivot axis;(ii) a second ground contact distance is defined as a minimum distance between the second front contact point and the steering pivot axis;wherein the first ground contact distance is less than the second ground contact distance; andwherein the scooter further includes a chassis pivot stop configured to restrict rotation of the wheel support chassis about the chassis pivot axis to within a chassis pivot angle range. 2. The scooter of claim 1, wherein the chassis pivot stop is configured to permit rotation of the first front wheel about the first front rotational axis and rotation of the second front wheel about the second front rotational axis when the chassis pivot stop is engaged to restrict rotation of the wheel support chassis about the chassis pivot axis. 3. The scooter of claim 1, wherein the steering assembly includes the chassis pivot stop. 4. The scooter of claim 1, wherein a first outer diameter of the first front wheel is greater than a second outer diameter of the second front wheel. 5. The scooter of claim 1, wherein the wheel support chassis operatively retains the first front wheel and the second front wheel relative to the steering pivot axis such that, when the rider is being supported by the body, a first normal force between the first front wheel and a riding surface is greater than a second normal force between the second front wheel and the riding surface. 6. The scooter of claim 1, wherein the first front contact point is forward of a point where the steering pivot axis intersects the planar riding surface, and the second front contact point is rearward of the point where the steering pivot axis intersects the planar riding surface. 7. The scooter of claim 1, wherein, when the scooter is in the neutral orientation: (i) a first mounting offset distance is defined as a minimum distance between the chassis pivot axis and a first plane that extends perpendicular to the planar riding surface and parallel to the first front rotational axis; and(ii) a second mounting offset distance is defined as a minimum distance between the chassis pivot axis and a second plane that extends perpendicular to the planar riding surface and parallel to the second front rotational axis;wherein the first mounting offset distance is less than the second mounting offset distance. 8. The scooter of claim 1, wherein, when the scooter is in the neutral orientation: (i) a first mounting offset distance is defined as a minimum distance between the chassis pivot axis and a first plane that extends perpendicular to the planar riding surface and parallel to the first front rotational axis; and(ii) a second mounting offset distance is defined as a minimum distance between the chassis pivot axis and a second plane that extends perpendicular to the planar riding surface and parallel to the second front rotational axis;wherein the first plane is forward of the chassis pivot axis and the second plane is rearward of the chassis pivot axis. 9. The scooter of claim 1, wherein the wheel support chassis operatively retains the first front wheel and the second front wheel relative to the steering pivot axis such that a first torque is less than a second torque; wherein the first torque is a torque about the steering pivot axis that is generated by a first lateral frictional force between the first front wheel and a riding surface when the scooter is being propelled across the riding surface by the rider; andwherein the second torque is a torque about the steering pivot axis that is generated by a second lateral frictional force between the second front wheel and the riding surface when the scooter is being propelled across the riding surface by the rider. 10. The scooter of claim 1, wherein in the forward straight orientation, the second front rotational axis is rearward of the steering pivot axis, and wherein in the forward straight orientation, the first front rotational axis is forward of the steering pivot axis. 11. The scooter of claim 1, wherein the steering assembly further includes a chassis pivot axis biasing mechanism configured to provide a chassis pivot axis restoring force that urges the wheel support chassis toward a predetermined orientation relative to the steering pivot axis. 12. The scooter of claim 11, wherein the predetermined orientation is a level orientation in which a line between a first front contact point of the first front wheel and a second front contact point of the second front wheel is level. 13. The scooter of claim 11, wherein the predetermined orientation is a rearward down orientation in which a line from a first front contact point of the first front wheel and a second front contact point of the second front wheel is sloped downward. 14. The scooter of claim 1, wherein the rear wheel is inline with the first front wheel and with the second front wheel when the steering assembly is in the forward straight orientation. 15. The scooter of claim 1, wherein the body includes a rider platform having an upper surface configured for the rider to stand on with one foot while contacting a riding surface with the rider's other foot; and wherein the scooter is configured to be steered in a steering direction by the rider in the following manners: by the rider leaning in the steering direction on the upper surface of the rider platform without rotating the steering shaft relative to the body about the steering pivot axis;by the rider pivoting the steering shaft in the steering direction relative to the riding surface without rotating the steering shaft relative to the body about the steering pivot axis; andby the rider rotating the steering shaft relative to the body about the steering pivot axis. 16. A scooter, comprising: a body configured to support a rider;a rear wheel rotatingly coupled to the body; anda steering assembly that includes:(i) a steering shaft rotationally coupled to the body about a steering pivot axis and configured to permit rotation of the steering assembly about the steering pivot axis among a plurality of steering orientations that includes at least a forward straight orientation, in which the steering assembly is oriented to direct the scooter on a straight, forward trajectory, and a turning orientation, in which the steering assembly is oriented to direct the scooter on a curved trajectory;(ii) a wheel support chassis pivotally coupled to the steering shaft for rotation about a chassis pivot axis;(iii) a first front wheel rotatingly coupled to the wheel support chassis about a first front rotational axis; and(iv) a second front wheel rotatingly coupled to the wheel support chassis about a second front rotational axis, wherein the second front wheel is at least substantially inline with the first front wheel such that a line that extends perpendicular to the first and second front rotational axes intersects the first and second front wheels, and, while the steering assembly is in the forward straight orientation, the second front wheel is located closer to the rear wheel than the first front wheel;wherein the wheel support chassis operatively retains the first front wheel and the second front wheel relative to the steering pivot axis such that, when the scooter is being propelled across a riding surface by the rider and the rider imparts a lean angle to the scooter without rotating the steering shaft about the steering pivot axis, a turning net torque generated between the steering assembly and the riding surface urges the steering assembly into a lean-induced steering orientation in the direction of the lean angle; andwherein the wheel support chassis operatively retains the first front wheel and the second front wheel relative to the steering pivot axis such that, when the scooter is being propelled across the riding surface by the rider and the steering assembly is perturbed from the lean-induced steering orientation, a net restoring torque generated between the steering assembly and the riding surface urges the steering assembly to return toward the lean-induced steering orientation. 17. The scooter of claim 16, wherein the scooter defines a neutral orientation when the steering assembly is in the forward straight orientation and the scooter is in an upright orientation on the riding surface; wherein, when the scooter is in the neutral orientation:(i) a first mounting offset distance is defined as a minimum distance between the chassis pivot axis and a first plane that extends perpendicular to the riding surface and parallel to the first front rotational axis; and(ii) a second mounting offset distance is defined as a minimum distance between the chassis pivot axis and a second plane that extends perpendicular to the riding surface and parallel to the second front rotational axis; andwherein the first mounting offset distance is less than the second mounting offset distance. 18. The scooter of claim 16, wherein the net restoring torque includes: (i) a first restoring torque about the steering pivot axis, wherein the first restoring torque is generated by a first lateral frictional force between the first front wheel and the riding surface; and(ii) a second restoring torque about the steering pivot axis, wherein the second restoring torque is generated by a second lateral frictional force between the second front wheel and the riding surface; andwherein the second restoring torque is greater than the first restoring torque. 19. The scooter of claim 16, wherein the turning net torque includes: (i) a first turning torque about the steering pivot axis, wherein the first turning torque is generated by a first lateral frictional force between the first front wheel and the riding surface; and(ii) a second turning torque about the steering pivot axis, wherein the second turning torque is generated by a second lateral frictional force between the second front wheel and the riding surface; andwherein the second turning torque is greater than the first turning torque. 20. The scooter of claim 16, wherein the wheel support chassis operatively retains the first front wheel and the second front wheel relative to the steering pivot axis such that, when the rider is being supported by the body, a first normal force between the first front wheel and a riding surface is greater than a second normal force between the second front wheel and the riding surface. 21. The scooter of claim 16, further comprising a chassis pivot stop that is configured to restrict rotation of the wheel support chassis about the chassis pivot axis to within a chassis pivot angle range. 22. The scooter of claim 16, wherein the steering assembly further includes a chassis pivot axis biasing mechanism configured to provide a chassis pivot axis restoring force that urges the wheel support chassis toward a predetermined orientation relative to the steering pivot axis. 23. The scooter of claim 22, wherein the predetermined orientation is a level orientation in which a line between a first front contact point of the first front wheel and a second front contact point of the second front wheel is level. 24. A scooter, comprising: a body configured to support a rider;a rear wheel rotatingly coupled to the body;a steering assembly that includes: (i) a steering shaft rotationally coupled to the body about a steering pivot axis and configured to permit rotation of the steering assembly about the steering pivot axis among a plurality of steering orientations that includes at least a forward straight orientation, in which the steering assembly is oriented to direct the scooter on a straight, forward trajectory, and a turning orientation, in which the steering assembly is oriented to direct the scooter on a curved trajectory;(ii) a wheel support chassis pivotally coupled to the steering shaft for rotation about a chassis pivot axis;(iii) a first front wheel rotatingly coupled to the wheel support chassis about a first front rotational axis; and(iv) a second front wheel rotatingly coupled to the wheel support chassis about a second front rotational axis, wherein the second front wheel is at least substantially inline with the first front wheel such that a line that extends perpendicular to the first and second front rotational axes intersects the first and second front wheels, and further wherein the second front wheel is located closer to the rear wheel than the first front wheel when the steering shaft is in the forward straight orientation;wherein the wheel support chassis operatively retains the first front wheel and the second front wheel relative to the steering pivot axis such that a first torque is less than a second torque;wherein the first torque is a torque about the steering pivot axis that is generated by a first lateral frictional force between the first front wheel and a riding surface when the scooter is being propelled across the riding surface by the rider; andwherein the second torque is a torque about the steering pivot axis that is generated by a second lateral frictional force between the second front wheel and the riding surface when the scooter is being propelled across the riding surface by the rider; andwherein the scooter further includes a chassis pivot stop configured to restrict rotation of the wheel support chassis about the chassis pivot axis to within a chassis pivot angle range. 25. The scooter of claim 24, wherein the chassis pivot stop is configured to permit rotation of the first front wheel about the first front rotational axis and rotation of the second front wheel about the second front rotational axis when the chassis pivot stop is engaged to restrict rotation of the wheel support chassis about the chassis pivot axis. 26. The scooter of claim 24, wherein the steering assembly includes the chassis pivot stop. 27. The scooter of claim 24, wherein a first outer diameter of the first front wheel is greater than a second outer diameter of the second front wheel. 28. The scooter of claim 24, wherein the wheel support chassis operatively retains the first front wheel and the second front wheel relative to the steering pivot axis such that, when the rider is being supported by the body, a first normal force between the first front wheel and a riding surface is greater than a second normal force between the second front wheel and the riding surface. 29. The scooter of claim 24, wherein the scooter defines a neutral orientation when the steering assembly is in the forward straight orientation and the scooter is in an upright orientation on a planar riding surface; and further wherein in the neutral orientation, the first front wheel forms a first front contact point with the planar riding surface, the second front wheel forms a second front contact point with the planar riding surface, and the rear wheel forms a rear contact point with the planar riding surface. 30. The scooter of claim 29, wherein the first front contact point is forward of a point where the steering pivot axis intersects the planar riding surface, and the second front contact point is rearward of the point where the steering pivot axis intersects the planar riding surface. 31. The scooter of claim 29, wherein, when the scooter is in the neutral orientation: (i) a first mounting offset distance is defined as a minimum distance between the chassis pivot axis and a first plane that extends perpendicular to the planar riding surface and parallel to the first front rotational axis; and(ii) a second mounting offset distance is defined as a minimum distance between the chassis pivot axis and a second plane that extends perpendicular to the planar riding surface and parallel to the second front rotational axis;wherein the first mounting offset distance is less than the second mounting offset distance. 32. The scooter of claim 29, wherein, when the scooter is in the neutral orientation: (i) a first mounting offset distance is defined as a minimum distance between the chassis pivot axis and a first plane that extends perpendicular to the planar riding surface and parallel to the first front rotational axis; and(ii) a second mounting offset distance is defined as a minimum distance between the chassis pivot axis and a second plane that extends perpendicular to the planar riding surface and parallel to the second front rotational axis;wherein the first plane is forward of the chassis pivot axis and the second plane is rearward of the chassis pivot axis. 33. The scooter of claim 24, wherein in the forward straight orientation, the second front rotational axis is rearward of the steering pivot axis, and wherein in the forward straight orientation, the first front rotational axis is forward of the steering pivot axis. 34. The scooter of claim 24, wherein the steering assembly further includes a chassis pivot axis biasing mechanism configured to provide a chassis pivot axis restoring force that urges the wheel support chassis toward a predetermined orientation relative to the steering pivot axis, and further wherein the predetermined orientation is a level orientation in which a line between a first front contact point of the first front wheel and a second front contact point of the second front wheel is level. 35. The scooter of claim 24, wherein the steering assembly further includes a chassis pivot axis biasing mechanism configured to provide a chassis pivot axis restoring force that urges the wheel support chassis toward a predetermined orientation relative to the steering pivot axis, and further wherein the predetermined orientation is a rearward down orientation in which a line from a first front contact point of the first front wheel and a second front contact point of the second front wheel is sloped downward. 36. The scooter of claim 24, wherein the rear wheel is inline with the first front wheel and with the second front wheel when the steering assembly is in the forward straight orientation. 37. The scooter of claim 24, wherein the body includes a rider platform having an upper surface configured for the rider to stand on with one foot while contacting a riding surface with the rider's other foot; and wherein the scooter is configured to be steered in a steering direction by the rider in the following manners: by the rider leaning in the steering direction on the upper surface of the rider platform without rotating the steering shaft relative to the body about the steering pivot axis;by the rider pivoting the steering shaft in the steering direction relative to the riding surface without rotating the steering shaft relative to the body about the steering pivot axis; andby the rider rotating the steering shaft relative to the body about the steering pivot axis.
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이 특허에 인용된 특허 (22)
Bernard, Pierre; Gaudreau, Guy, Adaptable vehicle having interchangeable tracks and wheels.
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