Disclosed is a bi-directional watercraft, such as a surfboard, fin systems therefore, and method of use. Example fin systems may allow a user of the watercraft to perform bi-directional maneuvers and stunts. The watercraft may be bi-directionally symmetric or asymmetric with fins mounted on its unde
Disclosed is a bi-directional watercraft, such as a surfboard, fin systems therefore, and method of use. Example fin systems may allow a user of the watercraft to perform bi-directional maneuvers and stunts. The watercraft may be bi-directionally symmetric or asymmetric with fins mounted on its undersurface on both ends. When underway, the fins at the operating rear of the watercraft deploy for stabilization in cross-currents, while the fins at the operating front remain pivoted out of the way so that they do not “catch” water and destabilize the watercraft. When the watercraft reverses in direction, and the front and rear ends swap with one another, biasing mechanisms cause the fins now at the front to pivot away and hydrodynamic forces cause the fins now at the rear to deploy. In some cases, holders keep the fins from inadvertently deploying when they are not needed.
대표청구항▼
1. A fin assembly comprising: a fin base comprising a watercraft mount configured to mount the fin assembly to a substantially planar surface of an exterior of a watercraft;a fin comprising a body extending in a first longitudinal direction from a front portion to a rear portion and extending in a s
1. A fin assembly comprising: a fin base comprising a watercraft mount configured to mount the fin assembly to a substantially planar surface of an exterior of a watercraft;a fin comprising a body extending in a first longitudinal direction from a front portion to a rear portion and extending in a second longitudinal direction from a base portion to a tip portion;a coupling configured to pivotably attach the base portion of the fin to the fin base so that when the fin assembly is mounted to the substantially planar surface of the exterior of the watercraft, the fin body may pivot about an axis that is at least substantially parallel with the first longitudinal direction to allow the fin body to pivot between a deployed position wherein the second longitudinal direction is substantially perpendicular to the planar surface of the exterior of the watercraft, and a stowed position wherein the second longitudinal direction is substantially parallel to the planar surface of the exterior of the watercraft;a biasing element configured to bias the fin toward the stowed position; anda stowed-position holder configured to tend to hold the fin in the stowed position, the stowed-position holder comprising a mechanical interference between the fin and the fin base when the fin is in the stowed position. 2. The fin assembly of claim 1, wherein the coupling comprises an element selected from the group consisting of: a hinge; an elastomeric element. 3. The fin assembly of claim 1, further comprising a deployed-position holder configured to tend to hold the fin in the deployed position. 4. The fin assembly of claim 3, wherein the deployed-position holder comprises a slot in the coupling that engages the fin when the fin is in the deployed position. 5. The fin assembly of claim 1, wherein the fin is configured to be longitudinally translated from a first longitudinal position to a second longitudinal position, and the mechanical interference comprises a portion of the fin that mechanically interferes with another portion of the fin assembly when the fin is in the first longitudinal position and does not mechanically interfere with said another portion of the fin assembly when the fin is in the second longitudinal position. 6. The fin assembly of claim 5, wherein the fin is configured to be longitudinally translated from the first longitudinal position to the second longitudinal position by the force of water traveling over the fin. 7. A fin assembly comprising: a fin base comprising a watercraft mount configured to mount the fin assembly to a substantially planar surface of an exterior of a watercraft;a fin comprising a body extending in a first longitudinal direction from a front portion to a rear portion and extending in a second longitudinal direction from a base portion to a tip portion;a coupling configured to pivotably attach the base portion of the fin to the fin base so that when the fin assembly is mounted to the substantially planar surface of the exterior of the watercraft, the fin body may pivot about an axis that is at least substantially parallel with the first longitudinal direction to allow the fin body to pivot between a deployed position wherein the second longitudinal direction is substantially perpendicular to the planar surface of the exterior of the watercraft, and a stowed position wherein the second longitudinal direction is substantially parallel to the planar surface of the exterior of the watercraft;a biasing element configured to bias the fin toward the stowed position;a stowed-position holder configured to tend to hold the fin in the stowed position, the stowed-position holder comprising an interference element configured to tend to prevent the fin from pivoting toward the deployed position when the fin is in the stowed position;wherein the interference element comprises a lever rotatable between at least two positions. 8. A watercraft comprising: a body extending longitudinally from a first end to a second end, the body comprising an undersurface;at least one fin assembly of claim 1 disposed proximate one of the first end and the second end, wherein the fin of the at least one fin assembly is pivotably coupled with the undersurface, each fin being pivotable between the deployed position wherein the fin extends substantially perpendicularly to the undersurface, and the stowed position wherein each fin extends substantially parallel to the undersurface;wherein the at least one fin assembly is configured so that when water flows past the respective fin in a chordwise direction from an end of the body distal the fin toward an end of the body proximate the fin, hydrodynamic force biases the fin toward the deployed position; andwherein the biasing element of the at least one fin assembly biases the respective fin toward the stowed position so that the fin tends to return to the stowed position when no water flows past the fin. 9. The watercraft of claim 8, wherein the watercraft is selected from the group consisting of: a surfboard, a paddleboard, a kayak, and a wakesurf board. 10. The watercraft of claim 8, wherein the at least one fin assembly further comprises two fin assemblies proximate the first end of the body and two fin assemblies proximate the second end of the body, the fin assemblies mounted to the body symmetrically about a longitudinal centerline of the body; wherein the fins on a first side of the longitudinal centerline pivot in a first direction, and the fins on a second side of the longitudinal centerline pivot in a second direction opposite the first direction. 11. The watercraft of claim 8, wherein the at least one fin assembly further comprises two fin assemblies proximate the first end of the body and two fin assemblies of proximate the second end of the body, the fin assemblies mounted to the body asymmetrically about a longitudinal centerline of the body; wherein the fins on a first side of the longitudinal centerline pivot in a first direction, and the fins on a second side of the longitudinal centerline pivot in a second direction opposite the first direction. 12. The watercraft of claim 8, wherein the stowed-position holder of the at least one fin assembly is configured to tend to hold the respective fin in the stowed position and then to release the respective fin to pivot toward the deployed position when water flows past the fin with a sufficient force in a chordwise direction from an end of the body distal the fin toward an end of the body proximate the fin. 13. The watercraft of claim 8, wherein the at least one fin assembly comprises a deployed-position holder, the deployed-position holder being configured to tend to hold the respective fin in the deployed position as long as water flows past the fin with a sufficient force in a chordwise direction from an end of the body distal the fin toward an end of the body proximate the fin. 14. A method of incorporating the fin assembly of claim 1 on a substantially planar surface of an exterior of a watercraft, comprising the steps of: providing a watercraft having a substantially planar surface on an exterior of the watercraft;providing at least one fin assembly of claim 1; andmounting the at least one fin assembly to the substantially planar surface of the exterior of the watercraft. 15. The method of claim 14, further comprising the steps of: providing the at least one fin assembly with at least two fin assemblies; andmounting each of the fin assemblies to the substantially planar surface of the exterior of the watercraft symmetrically about a longitudinal centerline of the watercraft so that the fin on a first side of the longitudinal centerline pivots in a first direction, and the fin on a second side of the longitudinal centerline pivots in a second direction opposite the first direction. 16. The method of claim 14, further comprising the steps of: providing the at least one fin assembly with a plurality of fin assemblies;mounting at least a first two of the fin assemblies to the substantially planar surface of the exterior of the watercraft symmetrically about a longitudinal centerline of the watercraft and proximate a first end of the watercraft;mounting at least a second two of the fin assemblies to the substantially planar surface of the exterior of the watercraft symmetrically about a longitudinal centerline of the watercraft and proximate a second end of the watercraft opposite the first end of the watercraft; andsaid mounting steps positioning the fin assemblies so that the fins on a first side of the longitudinal centerline pivot in a first direction, and the fins on a second side of the longitudinal centerline pivot in a second direction opposite the first direction. 17. The method of claim 16, further comprising the steps of: mounting the first two and the second two of the fin assemblies to the substantially planar surface of the exterior of the watercraft symmetrically about a line perpendicular to the centerline of the watercraft, so that:water flowing over the fins in a first direction parallel to the centerline of the watercraft urges the respective fins of the first two of the fin assemblies to pivot toward the deployed position; andwater flowing over the fins in a second direction parallel to the centerline of the watercraft and opposite the first direction urges the respective fins of the second two of the fin assemblies to pivot toward the deployed position. 18. The method of claim 17, further comprising the steps of: riding the watercraft so that water flows over the fins in the first direction and causing one or more of the fins of the first two fin assemblies to pivot to the deployed position;riding the watercraft so that water stops flowing over the fins of the first two fin assemblies and causing the fins of the first two fin assemblies to pivot to the stowed position; andriding the watercraft so that water flows over the fins of the second two fin assemblies in the second direction and causing one or more the fins of the second two fin assemblies to pivot to the deployed position.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.