IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0191381
(2011-07-26)
|
등록번호 |
US-8500146
(2013-08-06)
|
발명자
/ 주소 |
- Genov, Toly
- Sotirov, Zlatko
- Todorov, Alex
- Markov, Marlowe
- Stefanov, Kalin
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
7 |
초록
▼
Skateboard designs including a hanger with a yoke with two arms, comprising a bumper which provides an increasing force as the wheel axles are pushed away from their resting position, and wide wheels with an asymmetrical and gradually tapering profile as the wheel extends outward from the midline of
Skateboard designs including a hanger with a yoke with two arms, comprising a bumper which provides an increasing force as the wheel axles are pushed away from their resting position, and wide wheels with an asymmetrical and gradually tapering profile as the wheel extends outward from the midline of the board, for improved “surfing-like” maneuverability including an enhanced ability to “carve” like a snowboard.
대표청구항
▼
1. A skateboard comprising: a deck, elongated along a longitudinal axis, having front and rear portions with respect to the longitudinal axis, the deck also having a perpendicular vertical axis pointing upward as the board rests on the ground, and a perpendicular lateral axis extending from left to
1. A skateboard comprising: a deck, elongated along a longitudinal axis, having front and rear portions with respect to the longitudinal axis, the deck also having a perpendicular vertical axis pointing upward as the board rests on the ground, and a perpendicular lateral axis extending from left to right from the perspective of a rider standing on the board facing the front of the board, separated by a lateral midline into a left side and a right side;a first wheel assembly attached to the front portion of the board;a second wheel assembly attached to the rear portion of the board;wherein the first and second wheel assemblies each comprise a truck and two wheels;wherein each truck comprises: a base portion fixedly attached to the board, having a first substantially vertical surface facing the left side of the deck, and a second substantially vertical surface facing the right side of the deck;a kingpin attached to the base, wherein the kingpin has a longitudinal axis within the lateral midline plane which is at an oblique angle from the horizontal plane of the board;a hanger attached to the kingpin, so that the hanger is free to rotate about the longitudinal axis of the while the base remains stationary;one or more axles connected to the hanger;two axles attached to the hanger, the longitudinal axes of the axles in their nominal position being substantially parallel to the lateral axis of the deck;a bumper yoke fixedly attached to the hanger, having a first arm and a second arm, the first arm having an inner surface adjacent to said first substantially vertical surface of the base, and the second arm having an inner surface adjacent to said second substantially vertical surface of the base;a first compliant member disposed between the first arm of the bumper yoke and the first substantially vertical surface of the base, and a second compliant member disposed between the second arm of the bumper yoke and the second substantially vertical surface of the base, wherein the first and second compliant members are configured to provide a compression force that increases as the hanger rotates away from its nominal position around the longitudinal axis of the kingpin. 2. The skateboard of claim 1, wherein the first and second compliant members comprise an elastomeric polymer attached, respectively, to the first and second arms of the bumper yoke. 3. The skateboard of claim 1, wherein the first and second compliant members comprise an elastomeric polymer attached, respectively, to the first and second substantially vertical surfaces of the base. 4. The skateboard of claim 1, further comprising at least four wheels, each wheel attached to one of said axles, wherein each wheel comprises: an inner edge, nearest the lateral midline of the deck, and an outer edge, furthest from the lateral midline;wherein the wheel has a substantially circular cross-section within each plane that perpendicularly intersects the wheel's rotational axis, and wherein each cross-section has a diameter which is a function of the distance along the wheel's rotational axis measured from the inner edge of the wheel to the plane of the cross-section;wherein said diameter, as a function of said distance, is at its maximum value when said distance is less than half of the total width of the wheel from the inner edge of the wheel to the outer edge of the wheel;wherein the first derivative, with respect to said distance, of the diameter as a function of said distance, is monotonically decreasing as a function of said distance between the point where the diameter is at said maximum value and the outer edge of the wheel;wherein the diameter at the outer edge of the wheel is less than 75% of said maximum value of the diameter; andwherein said maximum value of the diameter is less than about 150% of said total width of the wheel. 5. The skateboard of claim 4, wherein said angle of the longitudinal axis of the kingpin is between about 40° and about 65°. 6. The skateboard of claim 4, wherein said angle of the longitudinal axis of the kingpin is between about 50° and about 60°. 7. The skateboard of claim 1, wherein each of the two wheels of each of the first and second wheel assemblies is associated with an axle, and wherein each of said wheels comprises: a rotational axis aligned with the wheel's associated axle; anda wheel surface substantially conforming to a mathematical surface defined independently for each wheel by revolving a continuous, smooth curve about the rotational axis;wherein the curve may independently for each wheel be uniquely defined as a real function ƒ(x) which is the distance from the rotational axis to the mathematical surface, where x is a distance along the rotational axis defined within a closed interval [a, b], where a corresponds to an outer point along the rotational axis, and b corresponds to an inner point along the rotational axis closer to the lateral midline of the deck than the point corresponding to a, such that b−a is the width of the wheel;wherein c is a value of x within the interval [a, b] such that ƒ(c) is the maximum value of ƒ(x), and wherein b−c is less than c−a;wherein the first derivative of ƒ(x) with respect to x is a continuous function of x, and is positive or zero when x is within the interval [a, c];wherein ƒ(a) is less than about 75% of ƒ(c); andwherein ƒ(c) is less than about 150% of b−a. 8. The skateboard of claim 7, wherein ƒ(c) is less than b−a. 9. The skateboard of claim 7, wherein b−c is less than 25% of b−a. 10. The skateboard of claim 7, wherein ƒ(a) is less than 50% of ƒ(c). 11. The skateboard of claim 7, wherein b−a is at least 75 mm. 12. The skateboard of claim 7, wherein b is approximately equal to c. 13. The skateboard of claim 7, wherein the curve is part of a circle. 14. The skateboard of claim 7, wherein the curve is part of an ellipse. 15. The skateboard of claim 7, wherein the curve is part of a spline curve. 16. The skateboard of claim 7, wherein the curve is part of a parabola. 17. The skateboard of claim 7, wherein the curve is part of a Bezier curve. 18. The skateboard of claim 7, wherein the curve is substantially the same for the four wheels consisting of the two wheels of the first wheel assembly and the two wheels of the second wheel assembly. 19. The skateboard of claim 7, wherein, for at least one of the wheel assemblies, the curve for one of the two wheels comprising that wheel assembly is substantially different from the curve for the other one of the two wheels comprising that wheel assembly. 20. The skateboard of claim 7, wherein the curve for at least one wheel for the first wheel assembly is substantially different from the curve for at least one wheel for the second wheel assembly.
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