Method and Apparatus for Reducing Body Stress Typically Experienced by a Snowboarder While on a Chairlift

Abstract

A Method and apparatus for reducing stress on the body (e.g., foot, ankle, hip, spine) of a snowboarder while sitting on a chairlift. The apparatus includes a boot binding assembly adapted for mounting on the top surface of a snowboard including a boot retention member hinged for movement between a dosed position and an open position. For typical downhill snowboarding activity, a user will place the retention member in the closed position to orient the sole of the user's boot substantially parallel, i.e. against the snowboard top surface. For sitting on a chairlift, the user will place the retention member in the open position so as to allow the snowboard to pivot around the hinge and hang substantially vertically from the retention member thus avoiding stressful torques on the user's supporting limb.

Claims

1. A method of mitigating the body stress experienced by a snowboard user while riding a chairlift, said method comprising: mounting on the top surface of a snowboard, a boot binding comprising a boot retention member configured for accommodating a user's boot and wherein said retention member is coupled to said snowboard for hinged movement between a closed position orienting the sole of said user's boot substantially parallel to said snowboard top surface and an open position orienting said sole substantially perpendicular to said snowboard top surface; placing said retention member in said closed position for normal snowboard activity; and placing said retention member in said open position while the user is on a chairlift to allow, said board to hang substantially vertically from the user's supporting limb.

2. The method of claim 1 wherein said step of placing said retention member in said closed position includes applying a force to said retention member directed toward said snowboard top surface.

3. The method of claim 1 wherein said step of placing said retention member in said closed position includes latching said retention member

4. The method of claim 1 wherein said step of placing said retention member in said open position includes user activation of a latch release member.

5. A binding assembly for coupling a user's boot to the top surface of a snowboard, said assembly comprising: a boot retention member for engaging the sole of a user's boot; a mounting structure coupling said boot retention member to said snowboard top surface so as to allow said retention member to pivot between a closed position orienting said boot sole substantially parallel to said snowboard top surface and an open position orienting said boot sole substantially perpendicular to Said snowboard top surface; a latch mechanism operable to latch said retention member in said closed position; and a user operable release mechanism for releasing said latch mechanism to allow said boot retention member to pivot to said open position.

6. The binding assembly of claim 5 wherein said mounting structure includes a hinge.

7. The binding assembly of claim 5 wherein said latch mechanism comprises a slam latch.

8. The binding assembly of claim 5 wherein said release mechanism includes a lever mounted proximate to said snowboard top surface accessible to said user.

9. In combination with a snowboard having a length, a width, and a top surface, a binding assembly comprising: a boot retention member including a boot sole support member defining a substantially planar sole support surface; a mounting structure attaching said boot retention member to said snowboard top surface and wherein said mounting structure includes a hinge allowing the plane of said sole support surface to pivot between a first position oriented substantially perpendicular to said snowboard top surface and a second position substantially parallel to said snowboard top surface; a latch mechanism responsive to movement of said sole support surface from said first to said second position for latching said sole support member in said second position; and a user operable actuator for unlatching said sole support member to allow said snowboard and sole support surface to move to said first position.

10. The combination of claim 9 wherein said latch mechanism comprises a slam latch.

11. The combination of claim 10 wherein said latch mechanism includes a latch member mounted for movement between a latched position and an unlatched position; and a spring for biasing said latch member to said latched position.

12. The combination of claim 11 wherein said boot retention member includes a bay for accommodating said latch member in said latched position; and wherein said actuator is operable to remove said latch member from said bay.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0006] FIG. 1 is a schematic timeline depicting the use of an embodiment of the invention;

[0007] FIG. 2 is a schematic depiction of a snowboard user on a chairlift showing the use of an embodiment of the invention to suspend a snowboard substantially vertically from the users supporting limb;

[0008] FIG. 3 is an isometric view of a preferred embodiment of the invention showing a binding assembly mounted on a snowboard with its boot retention member in its open position;

[0009] FIG. 4 is an isometric view similar to FIG. 3 but showing the binding assembly boot retention member in its closed position;

[0010] FIG. 5 is a sectional view taken substantially along a plane of FIG. 4;

[0011] FIG. 6 is a front view of the binding assembly of FIG. 4;

[0012] FIG. 7 is top view of the binding assembly of FIGS. 4; and

[0013] FIG. 8 is an isometric view of an exemplary latch for mechanism for latching the binding assembly in the closed position.

DESCRIPTION OF PREFERRED EMBODIMENT

[0014] Attention is initially directed to Figure I which schematically depicts a typical snowboard chairlift system 20 comprised of a tow cable 22 and at least one lift chair 24 attached to the cable for transporting a snowboard user 26 up the snow slope 28. FIG. 1 represents the user 26 at time T0 just prior to mounting the chair 24. The interval T1-T2 represents the time the user is being transported up the slope and T3 is the time just prior to the user exiting the chairlift.

[0015] The present invention is directed to a method and apparatus which enables a user to suspend his snowboard 30 substantially vertically (FIG. 2) during his upslope travel so as to avoid excessive stress on the user's supporting limb 32. As will be described hereinafter with reference to FIGS. 3-8, a preferred embodiment of the invention comprises a binding assembly 40 mounted to the top surface 42 of snowboard 30. The binding assembly 40 is characterized by a boot retention member 44 supported for selective movement relative to the board 30 between an open position (FIG. 3) and a closed position (FIG. 4). In the open position, the boot retention member 44 orients the user's boot 45 so the plane of the boot's sole 46 is substantially perpendicular to the snowboard top surface 42, thus allowing the board to assume the substantially vertical orientation depicted in FIG. 2. In the closed position, the retention member 44 orients the boot sole so as to be parallel and proximate to the snowboard top surface 42 so as to enable normal snowboard activity.

[0016] Attention is now directed to FIGS. 3-8 which illustrate a preferred binding assembly 40 in accordance with the invention mounted on an exemplary snowboard 30 near the board's nose end 47. A rear binding (not shown) is typically mounted closer to the board's tail end. The snowboard 30 defines a top surface 42 extending from a nose end 47 to a tail end 43. The board 30 also defines an under surface 50 for engaging a snow surface. The binding assembly 40 is comprised primarily of a boot retention member 44 hinged to a mounting plate 54 for pivotal movement between an open position (FIG. 3) and a closed position (FIG. 4).

[0017] The boot retention member 44 comprises a frame 56 defining a forward side wall 58, a rearward side wall 60, two or more boot support members 62, 64, and a heel support member 66. The frame elements collectively encompass a volume for accommodating a user's snowboard boot 45 with the boot sole 46 bearing against the substantially planar surfaces of support members 62, 64. The boot can be secured in the frame 56 by a variety of well know devices generally referred to as binding and/or safety straps (not shown).

[0018] In accordance with a preferred embodiment of the invention, the lower outside edge of forward side wall 58 (closest to the board nose) carries one or more hinge barrels 70 (FIG. 7) configured to align with hinge barrels 72 extending from the forward edge of mounting plate 54. Although any of a variety of hinge structures can be employed in accordance with the invention, an exemplary embodiment preferably utilizes two separate hinge structures 76, 78 (FIG. 7) located proximate to the toe and heel regions of the boot retention member 44. More particularly, each hinge structure 76, 78 is preferably comprised of two mounting plate barrels 72 spaced to receive a retention member barrel 70 therebetween. The barrels of each of the hinge structures 76, 78 are aligned to receive a locking pin 80 which extends through the respective barrel orifices and defines a hinge axis.

[0019] The hinge structures 76, 78 are designed to preferably offer a range of approximately 0 to 125 degrees of rotational freedom around the hinge axis allowing the retention member 52 to pivot between the closed position (FIG. 3) and the open position (FIG. 4),

[0020] FIG. 5 depicts a preferred arrangement for mounting the aforementioned mounting plate 54 to the board top surface 42. The mounting plate 54 includes a central aperture 84 defined by a peripheral wall 85 including a step offset 86 so as to define an upper wall portion 90 and a lower wail portion 92. A disk plate 94 is attached to the board top surface, by suitable fasteners, e.g. screws (not shown) extending through slots 95. The disk plate 94 extends through the mounting plate aperture 84 so as to bear against the step 86 to affix the mounting plate 54 to the board 30. As is well known in the art, it is typical to allow for rotational adjustment of the mounting plate 54 around the disk plate 94 to achieve the user's preferred stance on the board.

[0021] A block 100 extends from the lower rearwawrd side wall 60 of retention member 44 and defines a bay or cavity 102 configured to closely accommodate a latch member 104 when in the closed position. The latch member 104 is mounted in latch mechanism 106 for movement between a forward latched position and a rearward release position. The latch member 104 is preferably provided with an inclined forward surface 108 such that a downward force applied to the surface 108 forces the latch member 104 rearwardly toward the release position. A spring 110 (FIG. 8) bears against the latch member 104 biasing it forward to the latched position and into the bay 102 in, block 100 when the retention member 44 is in the closed position (FIG. 4). The latch mechanism 106 is preferably of a type frequently referred to as a “slam latch” and various configurations are commercially available (e.g., Sierra Pacific Engineering 315LSS-01),

[0022] The latch mechanism 106 includes an actuator 112, e.g. a lever, which can be manually operated by a user to move the latch member 104 from the latched position to the release position. More particularly, by manually (via the user's hand or foot) rotating actuator 112 around pivot point 114 (clockwise in FIG. 8), the latch member 104 will be moved rearwardly, against the force offered by spring 110 anchored against a wall of latch cover 116, to withdraw the latch member from the block bay 102. Withdrawal of the latch member 104 from the bay 102 frees the boot retention member 44 to pivot around the hinge axis defined by hinge structures 76, 78 thus concurrently enabling the board 30 to swing to a substantially vertical orientation (FIG. 2) with the board's top surface oriented substantially perpendicular to the plane of the user's boot sole 46 The hinge structures are preferably designed to assure that the board 30 swings open smoothly in controlled fashion, e.g., by proper choice of hinge structure material and/or dimensional tolerances

[0023] It should be noted that the lever actuator 112 extends rearwardly substantially parallel to the board top surface 42. Thus, it can be readily accessed by the user manually applying a horizontal force to release the latch mechanism 106.

[0024] With reference primarily to FIG. 1, a preferred method of using embodiments of the invention include the following steps:

[0025] at time T0: Snowboarder 26 awaiting entry onto lift chair with binding assembly retention member 44 in the dosed position. The slam latch 106 secures the retention member in the closed position.

[0026] at time T1: After mounting the chair, the user uses his hand or free foot to apply a horizontal force to lever 112 to pivot it about pivot point 114 to thus withdraw the latch member 104 from bay 102 thus allowing the retention member to rotate around the hinge axis, thus swinging the board 30 to the vertical orientation suspended from the users limb (FIG. 2). Thereafter, the user will ride the chair upslope with the board 30 hanging: substantially vertically to mitigate stress on the user's supporting limb, until approaching the exit at time T3.

[0027] at time T3: The user can place his free foot underneath the snowboard to pull it upward, and initiate the aforedescribed latching operation. As the retention member block 100 bears against the inclined surface 108 of the slam latch mechanism 106, the latch member 104 will slide rearwardly against spring 110 to allow the retention member to fully seat against the mounting plate 54. The spring 110 then automatically returns the latch member into the locking bay 102. The user is then able to exit the lift with ease with full control restored for normal snowboard activity. Significantly, the user also has the option of exiting the lift with the retention member 44 in the open position and relying on the downward force of the user's weight to initiate the latching operation, i.e. block 100 bearing against the inclined surface 108 to slide latch member 104 rearwardly and position bay 102 to receive the latch member moved forward by spring 110.

[0028] It should now be apparent that the invention described herein is broadly directed to a method and apparatus for relieving stress and discomfort previously experienced by a typical snowboarder when riding up a chairlift It should be understood that the particular apparatus described represents a preferred embodiment and it is recognized that modifications and variations are likely to occur to those skilled in the art within the intended scope of the invention, as defined by the appended claims. For example only, the hinge structures 76, 78 and latch mechanism 106 can be implemented in a variety of different ways, all consistent with the teachings of the invention.