Snowboard Training Support Apparatus

Abstract

A snowboard support apparatus, attached to the snowboard in such a way that it extends from the board and provides a physical support for the rider to lean against in order to aid in the process of learning to snowboard. The support apparatus provides support to the rider to allow them to develop skills in being able to ride a snowboard in an incremental and natural manner without constraining the riding experience.

Claims

1. A snowboard support apparatus, attached to the snowboard in such a way that it extends from the board and provides a physical support for the rider to lean against

2. Wherein the attachment of claim 1 provides support when the rider leans in the direction of the board's uphill edge

3. Wherein the attachment of claim 1 can be adjusted in order to allow the board to lean to various angles before the attachment provides support

4. Wherein there are two attachment devices as described in claim 1, which are located one with each of the bindings

5. Wherein there is one attachment as described in claim 1, which features two base structures and a physical support located between the two base structures

6. Wherein the width and length of the attachment in claim 1 can be adjusted to fit various binding sizes and board widths

7. Wherein the support of claim 1 is able to fold upward to not interfere with the movement of the rider when the support is not desired

8. A snowboard support apparatus, attached to the snowboard and featuring sliding members, extending from each side of the board to provide a physical support for the rider to lean against, wherein the support can be adjusted to change to the angle that the board can lean before the sliding member contacts the ground and provides a force to support the rider

9. Wherein the attachment of claim 8 provides support when the rider leans in the direction of the board's uphill edge

10. Wherein there are two attachment devices as described in claim 1, which are located, one with each of the bindings

11. Wherein there is one attachment as described in claim 1, which features two base structures and a sliding member located between the two base structures

12. Wherein the support of claim 8 is able to fold upward to not interfere with the movement of the rider when the support is not desired.

13. Wherein the width and length of the attachment of claim 8 can be adjusted to fit various binding sizes and board widths

14. A snowboard support apparatus, which features a base structure mounted between the snowboard binding and the snowboard deck featuring holes for mounting that align with the holes in the snowboard binding insert disks and is secured using fasteners which extend from the insert disk into the threaded holes in the snowboard deck, featuring sliding members, located at the end of arms, extending from each side of the board to provide support for the rider when they lean in the direction of the board's uphill edge, wherein the support can be adjusted to change the angle that the board can lean before the sliding member contacts the ground and provides a force to support the rider

15. Wherein there are two attachment devices as described in claim 1, which are located, one with each of the bindings

16. Wherein there is one attachment as described in claim 1, which features two base structures and a sliding member located between the two base structures

17. Wherein the support base structure in claim 14 features a raceway with predetermined locations, which are used to fix the arm and sliding member at a given angle relative to the snowboard

18. Wherein the arm of claim 14 can be adjusted in length to adjust the distance of the sliding member from the central axis of the snowboard

19. Wherein the width of the attachment in claim 14 can be adjust to fit various binding sizes and board widths

20. Wherein the length of the attachment in claim 14 can be adjusted to fit various binding sizes and board widths

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] FIG. 1 is a side view, showing the apparatus attached to the snowboard 1, under the bindings 5, with the sliding members 4 extending from the board.

[0012] FIG. 2 is an exploded view showing how the support apparatus is attached to the snowboard 1.

[0013] FIG. 3 is a detail view, looking down at the top of the board 1, showing only the base of the support apparatus 2 in order to show the geometry, which allows it to interface with the binding insert disc.

[0014] FIG. 4 is a side view of one of the preferred embodiments of the present invention, in which the base of the support 2 features a raceway with holes 7 for the arms 3 of the sliding member 4 to interface with, in order to lock the sliding member 4 at a given angle with respect to the board.

[0015] FIG. 5 is a side view of the invention, and detail image of FIG. 4, showing how the angle of the device can be adjusted by rotating the sliding member 4 and arms 3 about a fixed point, and locking the arm in a fixed position by placing a pin or other device in the base structure's corresponding hole 7.

[0016] FIG. 6 is a top view showing a preferred embodiment of the present invention which features two support attachments, one located under each binding 5, which each have two sliding members 4, one sliding member 4 extending from each side of the board 1.

[0017] FIG. 7 is a top view showing a preferred embodiment of the present invention which features one support attachment, with two base structures 2, one located under each binding, and featuring two sliding members 4, one extended from each side of the board 1, in between the bindings 5.

[0018] FIG. 8 is a side view showing the comparison of setting the angle of the support apparatus at two different angles in order to show how increasing in the angle relative to the board 1 allows the rider 9 to lean farther uphill before the sliding member contacts the ground 10 and provides support to the rider 9.

DETAILED DESCRIPTION OF THE INVENTION

[0019] It is an object of the invention to create an apparatus, which attaches to the board 1 so as to be able to provide support to the rider 9 without any other input. For example, no other human is needed to operate the device for the user, and the user does not need to do anything while riding to utilize the device. In this way the user is able to focus solely on the task of learning, and the device will act on its own.

[0020] It is a further object of the invention that the device creates a physical support, which can be incrementally adjusted to allow the board 1 and rider 9 to lean to an increased angle before the sliding member 4 comes in contact with the ground 10. When the sliding member 4 comes in contact with the ground 10, the device provides support to the rider 9. This is due to the fact that the sliding member 4 creates a force, which acts to resist further motion of the board 1 in an angular direction, thereby keeping the board 1 from leaning any further. This force acts against the rider 9 and provides them an added support and level of stability.

[0021] As can be seen in FIG. 1, the base of the support apparatus 2 is attached to the board 1 and is secured in between the snowboard binding 5 and the snowboard 1. The support apparatus features arms 3 which extend from the base of the support apparatus 2 and which feature a sliding member 4 at the end of the arms. This sliding member 4 comes in contact with the snow in order to provide a supportive force to the rider 9, as can be seen in FIG. 8.

[0022] As can be seen in FIG. 2 the device is secured in between the snowboard 1 and the bindings 5 using fasteners 8 which extend through the binding insert disk, through the base of the support device 2 and are fastened to the snowboard 1. FIG. 2 shows a detailed look at the base of the support attachment 2, which features geometry intended to allow the support apparatus to interface with the binding insert disk.

[0023] In one embodiment of the invention, the user 9 will first remove the bindings 5 from their snowboard 1. They will then align the training device with the holes in the binding insert disc and use fasteners 8 to attach the device to the board 1 under the binding 5. The device features hole patterns to allow it to interface with all major binding 5 insert disc patterns, allowing the device to be used universally on all snowboards 1. The design can be adjusted in length to account for various board 1 widths, and also in width to adjust for various binding 5 and board 1 widths. After this the rider 9 will select their corresponding skill level by moving the arm 3 and sliding member 4 to the desired angle relative to the board 1. This method of adjustment can be seen in FIG. 5, which shows several angular positions of the sliding member 4 transposed on top of one another. In this way the user 9 will be able to select how far they will be able to lean before the device provides support to them. At the beginner level, the snowboard is only able to lean slightly before the device provides support. This support allows the beginner to lean into the hill 10 and to learn what it feels like to carve, with the added benefit of having additional support. After the user is comfortable with the beginner setting, they are then able to raise the sliding member 4 to the next level. This will allow the rider 9 to lean even further before they are provided support. As the angle is continually increased, the rider 9 will be able to rely more and more on their own balance, while still having the support there incase of momentary instability to provide them with added support. After the user 9 is comfortable at all levels of the device, the fasteners can easily be removed and the board can be returned to its original configuration.

[0024] One embodiment of the design, which can be seen in FIG. 4, shows the sliding member 4 is located at the end of two arms 3, one on either end of the sliding member 4, which extend from the base of the device 2. The arms 3 are pinned 6 to the device at the end closest to the center of the board 1. The base of the device features a raceway with holes 7 which allow a cotter pin, shear pin, spring plunger, or other device to be placed into the raceway hole 7, thereby locking the arm 3 at the desired angle. This can be seen in detail in FIG. 5. To adjust the angle of the sliding member 4 this pin, spring plunger, or other device would be removed, and the arm 3 and sliding member 4 would be adjusted to align with a different hole 7, corresponding to a new set angle. In addition other embodiments can be created to obtain the effect of adjusting the angle of the sliding member 4 to various degrees. The sliding member 4 can be designed in order to remain directly adjacent to the side of the board, or it can be designed to be located at an extended distance from the board in order to create a larger moment arm to thereby increase the stabilizing force provided to the rider. Also, the sliding member 4 itself can be designed to take on several different geometries and materials, however the main goal would be to create a sliding member 4 which provides support, but which is smooth and curved in a manner that it will not catch on the snow 10, or impede the movement of the snowboard 1, to any major extent.

[0025] In addition, there are several alternate configurations for the design, several of which will be mentioned here. First, the device can be attached to the board 1 in several manners other than being fastened to the board 1 with the corresponding binding insert disc holes, such as being mounted to the board 1 with hardware, being mounted to the bindings 5, being integrated into the bindings 5, being mounted to the board 1 with suction, being clamped to the board 1, and various other methods. The object of this invention is to attach to the board 1 or bindings 5 in a manner that allows the device to provide support to the rider. In addition, the device itself can either be designed in a manner which allows all board 1 and bindings 5 to fit on the device, or the invention can be designed to be able to adjust to fit all bindings 5 and boards 1 universally, or it can be designed for one specific size board 1 or binding 5. Another aspect of the design that can be altered is the adjustment between the various skill levels. The main object of the invention is to allow the rider 9 to adjust the angle of the sliding member 4 relative to the board 1. In addition, springs or dampeners can be used to aid in dampening the impact of the rider leaning against the sliding member 4 suddenly and to provide a variable level of support, which increases its supportive force as the rider 9 leans. In addition, there are various methods besides those mentioned here for adjusting the heights of the supports and locking them into position. The materials and manufacturing methods for this device can be adjusted in order to provide the ideal level of stiffness, strength, and mass. The device can also be designed to set the sliding member 4 at a fixed angle relative to the board 1, which cannot be adjusted.

[0026] Finally the design can be adjusted to either constitute two separate devices attached to the board 1 or binding 5 which each have one sliding member 4 extending from each side of the board 1, or one larger device, which can be attached to either the board 1, or bindings 5 which features one sliding member 4 extending off of each side of the board 1, in between the bindings 5. The idea for this sort of support device may apply to areas outside of snowboarding and can be used in a similar manner for learning other board sports or other applications. As previously stated, it is to be understood that the specific embodiments of the present invention that have been described herein are merely illustrative of certain applications of the principles of the present invention. It should further be understood that the geometry, compositions, values, and dimensions of the components described herein can be modified within the scope of the invention and are not generally intended to be exclusive.