Patent Grant
10086257
The present invention relates generally to devices for adapting footwear for other uses, and more specifically to adapting footwear for use with a ski binding. Even more specifically, the present invention relates to adapting a snowboard boot for use with a ski binding.
There are many known alpine ski boots, bindings and skis. All of these alpine boots and bindings conform to the corresponding ISO and ASTM standards, which define parameters such as geometry and release torques. Many designs for how a skier enters the boot and how the boot is closed (or buckled) have been developed over a long time period. Also, many different designs for alpine ski bindings have also been developed during the same time frame. The standards of the alpine ski boots and alpine ski bindings ensure that the alpine ski boot will function properly in the ski binding,
Snowboard boots are fundamentally different than alpine ski boots. Snowboard boots do not have a hard shell, and while the snowboard boots are normally stiffer than a standard outdoor boot (for hiking for example) they tend to be less stiff than a normal alpine ski boot. In addition, snowboard boots do not embody the geometry and structural features required for alpine ski boots and are not designed to engage with a standard alpine ski binding. Snowboard boots and bindings must also adhere to the applicable ISO and ASTM standards regarding geometry, but the type of fit and fit tolerances are significantly different than those for alpine ski bindings. Snowboard boots use a “bucket fit” to engage with standard snowboard bindings. A “bucket fit” refers to the snowboard boot being placed in a snowboard binding which is essentially a concave shell so the snowboard boot is held roughly in place. Straps and buckles are then used to affix the snowboard boot in place relative to the snowboard binding.
Alpine ski boots typically include a rigid sole plate for coupling to the ski binding. A toe flange of the sole plate is configured to first slide into a toe cap of the ski binding. When a heel portion of the sole plate is lowered into the heel portion of the ski binding, the heel portion activates the locking mechanism of the heel portion of the ski binding and the heel is locked into place.
A person engaging in snow sports may wish to go back and forth from alpine skiing to snowboarding during the day. However, changing boots is inconvenient and time-consuming. What is needed is an adapter for snowboard boots so that the snowboard boot may be safely used with an alpine ski binding without necessitating removal of the snowboard boot.
Several embodiments of the invention advantageously address the needs above as well as other needs by providing a ski binding adapter apparatus for a boot comprising: a back support configured to receive a calf portion of a boot; a sole plate configured to receive a sole of the boot, a heel end of the sole plate pivotally coupled to a lower end of the back support, a portion of the heel end of the sole plate configured to removably attach to an alpine ski binding, a toe portion of the sole plate configured to removably attach to the alpine ski binding; a flexible foot pad configured to rest on the top of the foot of the boot when the boot is received by the sole plate; at least two toe straps, each toe strap coupling a side of the foot pad to a side portion of the sole plate, whereby a toe portion of the boot is snugly encircled by the sole plate, the foot pad, and the toe straps when the sole of the boot is received by the sole plate; at least two ankle straps, each ankle strap coupling a side of the foot pad to a side portion of the sole plate, whereby an ankle portion of the boot is snugly encircled by the sole plate, the foot pad, and the ankle straps; when the sole of the boot is received by the sole plate; and a shin pad assembly comprising a shin pad interposed between two shin straps, each shin strap coupling the a side of the shin pad to a side of the back support, whereby a leg portion of the boot is snugly encircled by the back support, the shin pad, and the shin straps, wherein when the boot is received in the ski binding adapter apparatus and the boot is snugly encircled by the apparatus at the toe portion, the ankle portion, and the leg portion, the boot is configured for use with the alpine ski binding.
The above and other aspects, features and advantages of several embodiments of the present invention will be more apparent from the following more particular description thereof, presented in conjunction with the following drawings.
Corresponding reference characters indicate corresponding components throughout the several views of the drawings. Skilled artisans will appreciate that elements in the figures are illustrated for simplicity and clarity and have not necessarily been drawn to scale. For example, the dimensions of some of the elements in the figures may be exaggerated relative to other elements to help to improve understanding of various embodiments of the present invention. Also, common but well-understood elements that are useful or necessary in a commercially feasible embodiment are often not depicted in order to facilitate a less obstructed view of these various embodiments of the present invention.
The following description is not to be taken in a limiting sense, but is made merely for the purpose of describing the general principles of exemplary embodiments. The scope of the invention should be determined with reference to the claims.
Reference throughout this specification to “one embodiment,” “an embodiment,” or similar language means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, appearances of the phrases “in one embodiment,” “in an embodiment,” and similar language throughout this specification may, but do not necessarily, all refer to the same embodiment.
While embodiments directed to a left shoe are described herein, it will be understood that embodiments for a corresponding right shoe will be mirrored as necessary.
The terminology “inside” refers to a side corresponding to an arch of a foot, and “outside” refers to the other side of the foot, i.e. opposite to the arch (in other terms, the outside side of the foot is the side of the foot most distal from a centerline going vertically though a person). The terms “toe” and “heel” correspond to the front and back of the foot, respectively. Longitudinal is used to refer to the toe-heel alignment, and transverse is used to refer to a direction crossing the foot, i.e. perpendicular to the longitudinal direction.
As referred to herein, applicable ISO and ASTM standards include at least ISO 14573 for Snowboard strap bindings for soft boots and ISO 5355 for Alpine Ski Boots. It will be understood that in other embodiments the invention may be modified for use with other standards snowboard boot and ski binding standards, for example ISO 11544 for Snowboard step-in bindings.
Referring first to
Shown in
The rigid toe plate 108 removably coupled to the rigid heel plate 106 in the same plane forms a rigid sole plate assembly 500 of the ski binding adapter apparatus 100 with a top (boot-side) surface and a bottom (ski-side) surface. The sole plate assembly 500 has a general shape of a sole of a shoe or boot, and is configured to receive the sole of the snowboard boot 102 by stepping the snowboard boot 102 onto the top surface of the sole plate assembly 500, with a toe of the snowboard boot 102 proximate to the toe end of the sole plate assembly 500 and the heel of the snowboard boot 102 proximate to the heel end of the sole plate assembly 500. and the toe plate 108 includes the toe flange 138 at a toe end of the toe plate 108, the toe flange 138 configured to slide into and removably couple to an alpine ski binding in accordance with applicable ISO and ASTM specifications. In the present embodiment the apparatus 100 is fully compatible with ISO 5355 for Alpine Ski-boots. The heel plate 106 includes the raised heel lip 140 around a perimeter of the heel plate 106 at a heel end of the heel plate 106. The heel lip 140 is configured to prevent rearward motion of the snowboard boot 102 while coupled to the ski binding adapter apparatus 100, and is also configured to removably couple to the alpine ski binding in accordance with applicable ISO and ASTM specifications. The heel lip 140 also provides an attachment location for the back support 104 and the first and second ladder straps 116, 118. The sole plate assembly 500, including additional elements not visible in
The toe plate 108, the heel plate 106 and the back support 104 in the present embodiment are made from plastic using an injection molding process, but other types of materials and processes may be used.
The sole portion may be lengthened or shortened to accommodate different snowboard boot lengths. The lengthening is described further below in
The back support is a generally vertically-oriented trough-shape (circular channel), with the open portion oriented towards the toe end of the apparatus 100 and configured to receive and partially encircle the calf portion of the snowboard boot, as shown in
The toe plate 108 also includes the toe sole plate 130 coupled to the bottom surface at the toe end of the toe plate 108. The toe sole plate 130 comprises plastic with a low friction bearing surface configured to interface with the ski binding as specified by ISO 5355. The toe sole plate 130 provides a removable and replaceable wear plate for the toe engagement portion of the apparatus 100. Similarly, the heel plate 106 also includes the heel sole plate 132 coupled to the heel end of the heel plate 106. As with the toe sole plate 130, the heel sole plate 132 comprises plastic with the low friction bearing surface configured to interface with the ski binding as specified by ISO 5355. The heel sole plate 132 provides a removable and replaceable wear plate for the heel engagement portion of the apparatus 100.
An upper shin portion of the snowboard boot is restrained by a shin assembly comprising the shin ladder strap 114, the shin pad 110, and the shin adjustable strap 200. One end of the shin ladder strap 114 is pivotally coupled to an upper corner of the back support 104 at the outside side of the apparatus 100 via the fastener 134 and washer 136 or other suitable connection means. A portion of the shin ladder strap 114 distal to the back support 104 is removably and adjustably coupled to the shin pad 110 via the ratchet buckle 122, which is coupled to a portion of the shin pad 110 proximate to the shin ladder strap 114. The ratchet buckle 122, as typically known in the art, allows for locking of a ladder strap in place within the ratchet buckle 122, and further tightening of the ladder strap by ratcheting the ladder strap using the ratchet buckle 122. The ratchet buckle 122 is also configured to unlock from the ladder strap, whereby the ladder strap may be loosened or removed from the ratchet buckle 122. Various types of ratchet buckles 122 are known in the art, and any suitable type or variation of ratchet buckle 122 may be used in the ski binding adapter apparatus 100. The shin pad 110 is coupled to the upper corner of the back support 104 via the shin adjustable strap 200, which includes a plurality of holes along the strap for adjustment. When the shin ladder strap 114 is coupled to the shin pad 110, as shown in
The shin pad 110 comprises foam interposed between two pieces of fabric, with a perimeter shape configured to provide attachment for the ratchet buckle 122 and the shin adjustable strap 200. The shin pad 110 may include interior stiffening pieces as required, for example at attachment points. In the present embodiment, the shin pad 110 is formed by sewing the foam and fabric assembly together, but other methods of attachment may be used, for example gluing. In other embodiments, the shin pad 110 may be comprised of only types of foam, of only types of fabric, or be made from other materials of suitable comfort, flexibility and strength.
A foot portion of the snowboard boot 102 is also restrained by a foot strap assembly comprising the foot pad 112, the first ankle ladder strap 116, the second ankle ladder strap 118, the toe ladder strap 120, the toe adjustable strap 202, the plurality of ratchet buckles 122, and the ladder strap receiver 204.
The foot pad 112 is removably and adjustably coupled to the sole plate assembly 500 by the straps 116, 118, 120, 202, the buckles 122 and the ladder strap receiver 204. The foot pad 112 rests on top of the foot portion of the snowboard boot 102, and is sized such that the foot pad covers most of the top of the foot portion of the snowboard boot 102. The first ankle ladder strap 116 and the second ankle ladder strap 118 are pivotally coupled to the heel plate 106 on a right and left side of the apparatus 100, respectively. In the present embodiment the coupling is through the same holes and uses the same fastener used for pivotal coupling of the back support 104 to the heel plate 106. The ankle ladder strap 116, 118 and the back support are pivotally coupled through the holes by the fastener 134 and at least one washer 136, although other couplings configured for some rotatable adjustment may be used. Using the same pivot point for the ankle ladder straps 116, 118 and the back support 104 allows for ideal placement of the foot pad 112 and improved isolation of the heel inside the snowboard boot 102.
In some embodiments the foot pad 112 may include a pull strap or pull handle to aid in adjusting of the foot pad 112 over the foot portion of the snowboard boot 102. The optional toe guide 146 may connect the toe portion of the foot pad 112 with the toe plate 108 at a location proximate to the toe end of the toe plate 108. The toe guide 146 may be used to prevent the snowboard boot 102 from moving further toe-ward within the ski binding adapter apparatus 100. The toe guide 146 is some embodiments is adjustable for length.
An upper end of the first ankle ladder strap 116 is removably and adjustably coupled to an upper outside side of the foot pad 112 by the ratchet buckle 122 coupled to the side of the foot pad proximate to the outside of the apparatus 100. An upper end of the second ankle ladder strap 118 is removably and adjustably coupled to the upper inside side of the foot pad 112 by the ladder strap receiver 204. The ladder strap receiver 204 provides incremental adjustment for the second ankle ladder strap 118, but for simplicity does not provide for the additional ratchet tightening, which for the top of the foot is provided by the ratchet buckle 122 coupled to the first ankle ladder strap 116.
An upper end of the toe ladder strap 120 is adjustably and removably coupled to a lower outside side of the foot pad 112 by the ratchet buckle 122 coupled to the side of the foot pad 112 proximate to the outside side of the apparatus 100. The toe adjustable strap 202 in the present embodiment has a plurality of holes along the length of the toe adjustable strap 202. A lowest hole is coupled to the toe plate 108 such that the toe adjustable strap 202 is pivotably coupled to the toe plate 108. An upper hole is coupled (pivotably or non-pivotably) to a lower inside side of the foot pad 112. Less adjustment is required at the inside toe location, so a ladder strap is not required and a simpler strap with holes, coupled with simple fasteners at both ends, may be used. The lower ends of the toe ladder strap 120 and the toe adjustable strap 202 are coupled to the outside side of the toe plate 108 at a location approximately 1″ to the rear of the front portion of the toe plate 108 that is used to couple to the ski binding.
The heel ratchet buckle 144 is coupled to a heel exterior portion of the back support 104 and oriented to receive the heel ladder strap 128 feeding into the heel ratchet buckle 144 from below and out of the heel ratchet buckle 144 at the top (i.e. the heel ladder strap 128 is oriented generally vertically). A lower end of the heel ladder strap 128 is coupled to the cable holder 126. The cable holder 126 includes a horizontal though-hole configured to receive the cable 124. The cable 124 passes through the cable holder 126 through-hole, wraps around the exterior of the back support 104 at each side of the back support 104, and is coupled to the heel plate 106 at each side, such that the cable 124 is a general U-shape going around the exterior of the back support 104 and anchored at the inside side and the outside side of the heel plate. The cable 124 is a flexible metal cable approximately 1 mm in diameter.
The location of the cable 124 is adjusted by adjusting the vertical location of the cable holder 126 by using the heel ratchet buckle 144 to lower or raise the heel ladder strap 128. Raising of the cable holder 126 tightens the cable 124 around the back support 104 and therefore limits rearward rotation of the back support 104 about the back support rotation axis 142. This is desirable in order for an angle of the back support 104 with respect to the sole plate assembly 500 to not be greater than an angle of the calf portion of the snowboard boot 102 with respect to the sole portion of the snowboard boot 102.
When it is desirable for the back support 104 to be rotated rearward with respect to the sole plate assembly 500 (for example as shown in
Referring again to
The apparatus 100, when coupled to the snowboard boot 102, allows the alpine skier to adapt the standard snowboard boot 102 to the standard alpine ski binding, and also provides the ability for the user to easily place the snowboard boot 102 within the ski binding adapter apparatus 100, and also provides for various adjustments of fit for improved functionality of the snowboard boot 102 in the apparatus 100.
Placing the snowboard boot 102 in the ideal position relative to the apparatus 100 is important for the overall performance of the apparatus 100. The various adjustable portions of the apparatus 100, as previously described, enable the user to couple the apparatus 100 to the snowboard boot 102 in the ideal position for standard-compliant use with the ski binding. As snowboard boot 102 types and sizes vary, the adjustability provides a customized, reliable fit of the snowboard boot 102 to the apparatus 100.
The use of the ratchet buckles 122 for adjustability on the outside side of the apparatus 100 ensures that the proper amount of pressure is placed on the snowboard boot 102. Additionally, the user only needs to release one or both of the outside ankle ladder straps 116, 120 in order to release the foot pad 112 from the snowboard boot 102.
Referring next to
The embodiment of
The toe ladder strap 120 and the first ankle ladder strap 116 have been similarly uncoupled from the foot pad 112. The back support 104 may be rotated rearwards, as indicated by the back support rotated position 300, to allow better access for the user to place the snowboard boot 102 into the apparatus 100. It should be noted that the back support 104 may be rotated further rearwards than shown in
In some cases, the user may prefer to leave the toe ladder strap 120 and the first ankle ladder strap 116 coupled to the foot pad 112, and instead loosen the ladder straps 116, 120 in the ratchet buckles 122.
In use, the user inserts the toe of the snowboard boot 102 underneath the foot pad 112 and drops the heel of the snowboard boot 102 so that the sole of the snowboard boot 102 is resting on the sole plate assembly 500. The back support 104 may initially be in a rearward rotated position to allow the heel and leg portion of the snowboard boot 102 to be more easily fit into the apparatus 100.
The toe ladder strap 120 and the first ankle ladder strap 116 are coupled to the ratchet buckles 122 if they are not already coupled to the ratchet buckles 122. The shin ladder strap 114 is coupled to the shin pad ratchet buckle 122. As the shin ladder strap 114 is tightened to snugly encircle the snowboard boot 102, the back support 104 is rotated forwards and engages the calf portion of the snowboard boot 102. Typically, for use in the ski binding, the back support 104 will be rotated slightly forwards of vertical. In typical embodiments the rotation requirement is easily met by the rotation range of the back support 104 about the back support rotation axis 142. In the present embodiment, the back support 104 is configured to rotate forward towards the toe end up to approximately 45 degrees. In practice, users will generally rotate the back support 104 forwards about 5-15 degrees.
The toe ladder strap 120 and the first ankle ladder strap 116 are also shortened using the ratchet buckles 122 such that the toe and ankle portions of the snowboard boot 102 are snugly and securely encircled. When the ratchet buckles are properly tightened, the snowboard boot 102 does not move within the apparatus 100 and when the apparatus 100 is coupled to a ski binding, the user can ski as if the user were wearing a conventional ski boot.
The sole plate assembly 500 may also be adjusted for length, as shown in
Referring again to
Once the apparatus 100 has been adjusted for fit around the user's particular snowboard boot 102, only the ratchet buckles 122 on the shin pad 110 and the ankle portion of the foot pad 112 of the apparatus 100 need to be released in order for the user to remove the snowboard boot 102 from the apparatus 100, and the apparatus 100 retains the proper adjustment for the next time the user uses the apparatus 100. Additionally, the location of the ratchet buckles 122 on the outside side of the apparatus 100 ensures that there is no interference between ratchet buckles 122 for the left foot and the right foot.
Referring next to
The heel plate 106 includes the raised heel lip 140 extending around the perimeter of the heel plate generally corresponding to a heel area of the snowboard boot 102. The heel lip 140 includes one horizontal heel lip hole 524 proximate to each end of the heel lip 140 for use in the pivotal coupling of the back support 104 and the ankle ladder straps 116, 118. The heel lip holes 524 are located proximate to the anatomical ankle of the user during use of the apparatus 100. In the embodiment shown, the heel lip 140 includes the vertical strap slot 302 proximate to each end and intersecting with the corresponding heel lip hole 524, such that the lower end of the corresponding ankle ladder strap 116, 118 may be inserted into the strap slot 302 and pivotally fastened to the heel lip 140 by a fastener 134 through the heel lip hole 524. The strap slots 302 also have a horizontal length longer than the width of the ankle ladder strap 116, 118 to allow for pivotal movement of the ankle ladder strap 116, 118.
The flat portion of the heel plate 106 includes the rectangular heel plate projection 522 centered transversely in the heel plate 106 extending outward from an end of the heel plate 106 at the toe-end of the heel plate 106. A rectangular portion of the heel plate 106, including the heel plate projection 522 and extending heel-wards, is recessed down from the heel plate upper surface 530 and comprises the upper heel plate recess surface 516. The upper heel plate recess surface 516 extends the same width as the heel plate projection 522. The portion of the heel plate 106 including the upper heel plate recess surface 516 includes the circular heel plate holes 520. One heel plate hole 520 is located proximate to the toe-end of the heel plate projection 522, and one heel plate hole 520 is located proximate to the heel-ward extent of the upper heel plate recess surface 516. The heel plate holes 520 are transversely centered in the upper heel plate recess surface 516.
The heel plate 106 includes the plurality of teeth 518 pointing upwards and located on either side of a portion of the upper heel plate recess surface 516. The teeth are oriented transversely on the heel plate 106. In the present embodiment, the number of teeth 518 on each side is between 2 and 10. The peaks of the teeth 518 are higher than the upper heel plate recess surface 516 but lower than the heel plate upper surface 530.
The toe plate 108 is generally flat, and includes the rectangular toe plate projection 514 centered transversely in the toe plate 108 extending outward from an end of the toe plate 108 at the heel-end of the toe plate 108. A rectangular portion of the toe plate 108, include the toe plate projection 514 and extending toe-wards, is recessed down from the toe plate upper surface 532 and comprises the upper toe plate recess surface 510. The extent of the upper toe plate recess surface 510 is configured to match the upper heel plate recess surface 516, so that in a shortest configuration of the sole plate assembly 500, the toe plate 108 is plated on top of the heel plate 106 such that the extent of the upper toe plate recess surface 510 fits within and aligns with the extent of the upper heel plate recess surface 516 located directly underneath the upper toe plate recess surface 510, as indicated by the dashed lines in
The portion of the toe plate 108 including the upper toe plate recess surface 510 includes the two elongated toe plate fastener slots 512, which are oriented in the longitudinal direction and centered in the transverse direction, so that when the toe plate 108 is placed on the heel plate 106, each heel plate hole 520 is accessible through one toe plate fastener slot 512.
The toe plate 108 also includes the teeth 518 on the underside of the toe plate 108, located and configured to mesh with the upward-facing teeth 518 of the heel plate 106. The teeth 518 of the toe plate are similar to the teeth 518 of the heel plate 106, with the exception that the top plate teeth 518 are pointing downwards. The teeth 518 of the toe plate 108 are the same number as the teeth 518 of the heel plate 106. When the upper heel plate recess surface 516 is aligned with the upper toe plate recess surface 510, the teeth areas are also aligned, i.e. each lower tooth 518 is meshed with an upper tooth 518 and the sole plate assembly 500 is a continuous thickness proximate to and at the tooth areas, as shown in
The rectangular top plate 304 matches the plan dimensions of the upper toe plate recess surface 510 and has a thickness generally matching the difference between the toe plate upper surface 532 and the upper toe plate recess surface 510, such that when the top plate 304 is placed on the upper toe plate recess surface 510, an upper surface of the top plate 304 is generally aligned with the toe plate upper surface 532. The top plate 304 includes the top plate recess 508 down the longitudinal center of the top plate 304. The depth and width of the top plate recess 508 matches the depth and width of the flanged nut 506 so that the top surface of the flange of the flanged nut 506 is aligned with the top plate upper surface, and the flanged nut 506 may be longitudinally slid within the top plate recess 508. The top plate 304 also includes the top plate fastener slots 504, configured in size and location to match the toe plate fastener slots 512 when the top plate 304 is placed on the toe plate 108. The top plate fasteners slots 504 are located within the top plate recess 508 so that the flanged nut 506 (and corresponding screw 528) can pass through both the top plate fastener slot 504 and the toe plate fastener slot 512 when the top plate 304 is placed on the toe plate 108. The top plate 304 comprises aluminum or other suitably strong and rigid material.
The rectangular bottom plate 502 matches the plan dimensions of a lower heel recess surface 600 on an underside of the heel plate 106 as shown in
As shown in
Referring next to
The underside of the heel plate 106 has three generally parallel surfaces. The lowest surface is the lower heel recess surface 600. The lower heel recess surface 600 corresponds to the upper heel plate recess surface 516 on the upper side of the heel plate 106. The lower heel recess surface 600 includes the heel plate projection 522 and the heel plate holes 520. The lower heel plate surface 602 is higher than the lower heel recess surface 600 such that when the bottom plate 502 is fitted into the lower heel recess surface 600, as shown in
A portion of the heel plate 106 corresponding to a general area underneath the heel is raised further, forming the lower heel plate raised surface 604. The lower heel plate raised surface 604 includes the plurality of blind holes 606 (four in the embodiment shown) and is configured to couple to the heel sole plate 132 shown in
Referring next to
Similarly to the heel plate 106, the underside of the toe plate 108 has three generally parallel surfaces (not considering the teeth 518). The lowest surface is the lower toe plate recess surface 700. The lower toe plate recess surface 700 corresponds to the upper toe plate recess surface 510 on the upper side of the toe plate 108. The lower toe plate recess surface 700 includes the toe plate projection 514 and the toe plate fastener slots 512. The lower toe plate surface 702 is higher than the lower toe plate recess surface 700 such that when the toe plate 108 is fitted onto the heel plate 106, as shown in
Also shown in
A portion of the toe plate 108 corresponding to a general area underneath the toe and ball of foot is raised further, forming the lower toe plate raised surface 704. The lower toe plate raised surface 704 includes the plurality of blind holes 606 (four in the embodiment shown) and is configured to couple to the toe sole plate 130 shown in
Referring next to
As previously shown in
Referring next to
To extend the length of the sole plate assembly 500 and provide a customized fit while still maintaining the rigidity and strength of the sole plate assembly 500, the toe plate 108 is moved outward from the heel plate 106 such that only a portion of the teeth 518 overlap, as shown in
While the toe plate 108 and the top plate 304 have moved forward, the locations of the heel plate holes 520 and the bottom plate holes 526 remain in the same location, so a center portion of the top plate fastener slots 504 is used in order to keep the vertical alignment allowing the elements of the sloe plate assembly to be coupled together using the screws 528 and the flanged nuts 506. The top plate recess 508 allows for the flanges of the flanged nuts 506 to slide in the top plate fastener slots 504 with the top surface of the flanged nuts 506 generally equal to the upper surface of the top plate 304 and the toe plate upper surface 532.
As with
Referring next to
The foot pad 112 is a generally rectangular shape with rounded corners and lateral extensions at the top (ankle) portion of the foot pad 112. The foot pad 112 in the present embodiment comprises foam interposed between two pieces of fabric. The foam has a thickness to be comfortable for the user and protect the user's foot from any protrusions from other parts of the foot pad assembly. The assembly of the foot pad 112 includes gluing the foam to each piece of fabric and sewing the foam and fabric assembly at least proximate to an outer perimeter of the foot pad 112. In other embodiments, the shin pad 110 may be comprised of only foam, of only fabric, or be made from other materials of suitable comfort, flexibility and strength.
The foot pad 112 includes the two stiffeners 1000. Each stiffener 1000 extends generally horizontally across the foot pad 112, one at the ankle side and one at the toe side. The stiffeners 1000 in the present embodiment comprise a flexible bar portion covered by a fabric portion. The fabric portion is sewn to the foot pad 112, whereby the stiffeners 1000 are coupled to the foot pad 112. The stiffeners 1000 are in a curved shape generally matching the curve of the top of the foot portion of the snowboard boot 102, aiding in the conforming of the foot pad 112 to the top of the foot of the snowboard boot 102. The stiffeners 1000 also provide a strengthened portion for attachment of the fasteners 134 fastening the ratchet buckles 122, the ladder strap receiver 204, and the toe adjust able strap.
At the upper ankle portion of the foot pad 112, the ladder strap receiver 204 on the left side (corresponding to the inside side of the apparatus 100) is coupled to the foot pad 112 by at least one fastener 134 and is configured for receiving the second ankle ladder strap 118. The ratchet buckle 122 on the right side (the outside side) at the upper ankle portion of the foot pad 112 is coupled to the foot pad 112 by at least one fastener 134 and is configured for receiving the first ankle ladder strap 116. The ratchet buckle 122 and the ladder strap receiver 204 are coupled to the foot pad 112 via the stiffener 1000 at the ankle portion of the foot pad 112.
At the lower toe portion of the foot pad 112, the toe adjustable strap 202 on the left side includes a plurality of holes 1002. The toe adjustable strap 202 is coupled to the foot pad 112 via one fastener 134 passing through one of the holes 1002. The toe adjustable strap 202 is adjustable by unfastening the toe adjustable strap 202 and refastening using another of the holes 1002.
At the right side of the lower toe portion (the outside side), the ratchet buckle 122 is coupled to the foot pad 112 by at least one fastener 134 and is configured for receiving the toe ladder strap 120. The rather buckle 122 and the toe adjustable strap 202 are coupled to the foot pad 112 via the stiffener 1000 at the toe portion of the foot pad 112.
Although the preceding description contains significant details of the various straps and buckles used to modify and adjust the position of the foot pad 112 and the back support 104, it should not be construed as limiting the scope of the invention, but rather as providing illustrations of the preferred embodiments of the invention. As an example, a system of cables and ratcheting pulleys could also be used to change the position of the foot pad 112. A similar system could also be used to tighten the adjustable foot pad 112 around the snowboard boot 102 ensuring a proper fit with the apparatus 100. A system such as the Boa Closure System could be used for this purpose. Thus the scope of the invention should be fixed by the following claims rather than any specific examples provided.
While the invention herein disclosed has been described by means of specific embodiments, examples and applications thereof, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope of the invention set forth in the claims.
This application claims the benefit of U.S. Provisional Application No. 62/355,573, filed Jun. 28, 2016, entitled Adjustable toe guide, foot strap and hinged back support and a system that adapts a snowboard boot to an alpine ski binding, which is incorporated in its entirety herein by reference.
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