Claims
- 1. Skeg structure for a snow-traveling device having an underside, snow-contacting surface, said skeg structure comprisinganchor structure securable to a snow-traveling device, a skeg blade, and mounting structure mounting said blade on said anchor structure for adjustable, travel-limited, yieldable, spring-biased motion of the blade relative to the anchor structure, such motion, with the skeg structure secured in place on board, occurring within a range of motion which accommodates different amounts of downward blade projection relative to the board's snow-contacting surface.
- 2. The skeg structure of claim 1, wherein said mounting structure includes substructure which defines such relative motion as an arcuate motion.
- 3. The skeg structure of claim 2, wherein said substructure defines such arcuate motion as a pivotal motion.
- 4. The skeg structure of claim 1, wherein said mounting structure includes substructure which defines such relative motion as one including a generally linear, translational motion.
- 5. The skeg structure of claim 1, wherein said mounting structure includes an elongate rotatable shaft having a skeg-blade-receiving end which, in axial transverse cross-section, is polygonal, and wherein said skeg blade includes a mounting region formed with a polygonal socket sized and configured to receive, in a clearance-fit fashion, said skeg-blade-receiving end in said shaft, said shaft promoting rotary motion of said blade within the mentioned range of motion.
- 6. The skeg structure of claim 5, wherein said skeg blade includes a mounting region engaged with said mounting structure, and a tapered, broad-area, somewhat planar expanse generally extending from said mounting region, and wherein the taper in said expanse is generally defined by at least a pair of converging planes each of which is disposed approximately normal to the long axis of said shaft.
- 7. The skeg structure of claim 5, wherein said skeg blade includes a mounting region engaged with said mounting structure, and a tapered, broad-area, somewhat planar expanse generally extending from said mounting region, and wherein the taper in said expanse is generally defined by three converging planes, each of which is disposed roughly normal to the long axis of said shaft, such planes furnishing a differential bevel characteristic to said expanse.
- 8. The skeg structure of claim 1, wherein skeg blade and mounting structure include a unitary, common, spring-reed component.
- 9. The skeg structure of claim 8, wherein said mounting structure includes a first adjustable slider moveable between different selectable positions interposed said spring-reed component and said anchor structure for adjusting amount of downward projection.
- 10. The skeg structure of claim 9, wherein said mounting structure further includes a second adjustable slider moveable between different selectable positions interposed said spring-reed component and said anchor structure for adjusting the level of spring biasing.
- 11. The skeg structure of claim 1, wherein said mounting structure includes relatively moveable cam and follower structure operable to define the mentioned range of motion permitted said skeg blade relative to said anchor structure.
- 12. The skeg structure of claim 11, wherein said mounting structure includes an elongate rotatable shaft which promotes rotaly motion of said blade within the mentioned range of motion, and said cam and follower structure includes a follower anchored for movement rotationally as a unit with said shaft, and a rotaly cam element, including a cam surface engaged with said follower, mounted for rotation on and relative to said anchor structure about an axis which is generally at a right angle relative to and spaced from said shaft's long axis.
- 13. The skeg structure of claim 12, wherein interposed said cam element and said anchor structure is spring-biased detent structure operable to effect releasable catching of said element relative to said anchor structure in plural different angularly-defined positions relative to the anchor structure, in each of which positions interaction between said cam surface and said follower results in placement of said skeg blade in different conditions of downward projection respecting an associated board's snow-contacting surface.
- 14. The skeg structure of claim 13, wherein said follower has a finger-like projection extending generally radially from said shaft, and said cam surface is formed with elongate depressions each adapted freely to receive said projection under circumstances with said cam element in different respective detent-caught angular positions relative to said anchor structure.
- 15. The skeg structure of claim 1, wherein said mounting structure includes guide structure generally slidably receiving said skeg blade for linear, plunger-like translational movement throughout the mentioned range of motion.
- 16. The skeg structure of claim 15, wherein there is further included spring-action adjustment structure operatively interposed said guide structure and said skeg blade, adjustable selectively to vary a spring-biasing force which acts on said blade to urge the same projectively downwardly relative to the board's snow-contacting surface.
- 17. The skeg structure of claim 16, wherein spring-biasing of said skeg blade is performed by a pair of laterally displaced compression springs which act operatively and effectively between the blade and said base.
- 18. A selective, variably deployable, travel-reactive skeg structure for a snow-traveling device, of the type having a snow-contacting undersurface, comprisinganchor structure suitable for anchoring the overall skeg structure to snow-traveling device, a skeg blade mounted on and for deployment movement and positioning relative to said anchor structure, and deployment biasing and adjustment structure operatively interposed said blade and said anchor structure, including a loadable/unloadable biasing element which is operable, selectively, to create different yieldably biased deployment conditions for said blade, a positive drive-connection structure drivingly interposed said element and said blade to cause the two to function as a unit, and adjustment structure operatively interposed said element and said anchor structure, operable, through said element, to establish a selected, yieldably biased deployment condition for said blade.
CROSS REFERENCE TO RELATED APPLICATION(S)
This application is a continuation of applicants' patent application Ser. No. 09/465,923 filed Dec. 17, 1999 for “Stabilizing Skeg Device” now abandoned, which is a continuation of Ser. No. 08/922,855 filed Sep. 3, 1997 now U.S. Pat. No. 6,007,101.
US Referenced Citations (6)
Continuations (2)
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Number |
Date |
Country |
Parent |
09/465923 |
Dec 1999 |
US |
Child |
09/608278 |
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US |
Parent |
08/922855 |
Sep 1997 |
US |
Child |
09/465923 |
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US |