Classifications

• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63C—SKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
  • A63C10/00—Snowboard bindings
  • A63C10/02—Snowboard bindings characterised by details of the shoe holders
  • A63C10/10—Snowboard bindings characterised by details of the shoe holders using parts which are fixed on the shoe, e.g. means to facilitate step-in
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63C—SKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
  • A63C10/00—Snowboard bindings
  • A63C10/02—Snowboard bindings characterised by details of the shoe holders
  • A63C10/10—Snowboard bindings characterised by details of the shoe holders using parts which are fixed on the shoe, e.g. means to facilitate step-in
  • A63C10/106—Snowboard bindings characterised by details of the shoe holders using parts which are fixed on the shoe, e.g. means to facilitate step-in to the front and back of the shoe
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63C—SKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
  • A63C10/00—Snowboard bindings
  • A63C10/16—Systems for adjusting the direction or position of the bindings
  • A63C10/22—Systems for adjusting the direction or position of the bindings to fit the size of the shoe
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63C—SKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
  • A63C10/00—Snowboard bindings
  • A63C10/24—Calf or heel supports, e.g. adjustable high back or heel loops

Definitions

• the present invention relates to skis and snowboards generally. More particularly, the present invention concerns the boot and binding systems for releasably retaining a boot on a ski or snowboard. Description of the Prior Art
• snowboard manufacturers have introduced several types of binding systems that permit a snowboarder to step into a snowboard binding as easily as a skier steps into a ski binding.
• the difficulty with such a design requirement is that these elements often protrude outbound from the boot or are disposed on the sole of the boot.
• the external hardware once affixed, is often awkward and can cause problems when the boot is disengaged from the binding.
• the protrusion may limit the mobility of the boot, which is more likely to abut with objects in the environment.
• the protrusion may become deformed so that it no longer properly configures to the binding mechanism.
• the elements disposed on the boot exterior may allow snow to accumulate and compact at the sole of the boot. This compacted snow may further prevent the boot from mating properly with the binding mechanism.
• binding systems proposed in the past have not addressed the possibility of use on both skis and snowboards.
• snowboard manufacturers have focused on designs for snowboards and ski manufacturers have focused on bindings for skis. While there are differences between skiing and snowboarding and the equipment needed for the two sports, there are also similarities which permit a certain amount of cross-hybridization in the area of the boot and binding mechanisms.
• the invention comprises a boot and binding provided for securing a boot to the upper surface of a ski or snowboard, the binding comprising a frame with lateral sides disposed on a base where a portion raised from the base connects the lateral sides at one end of the frame. Disposed on to the raised portion is a locking device for engaging a heel portion of the boot. At the other end of the frame is a bail disposed between the lateral sides to engage a toe portion of the boot.
• the boot includes a heel portion with a receiving structure for communicating with the locking device and a toe portion with a receiving structure for communicating with the bail.
• Fig. 1 is a top view of a first embodiment of the binding according to the present invention, showing a first variation of a locking mechanism, a first variation of a bail, and a first variation of a support member;
• Fig. 2 is a side elevation view of the first embodiment of the binding according to the present invention.
• Fig. 3 is a rear elevation view of the first embodiment of the binding according to the present invention.
• Fig. 4 is a perspective view of the first embodiment of the binding according to the present invention.
• Fig. 5 is a perspective view of a second embodiment of the binding according to the present invention.
• Fig. 6 is a side elevation view of a variation of the first embodiment of the binding according to the present invention.
• Fig. 7 is a rear elevation of the second embodiment of the binding system according to the present invention.
• Fig. 8 is a partial side elevation view of the binding according to the present invention, showing the first variation of the locking mechanism
• Fig. 9 is a partial side elevation view of the binding according to the present invention, showing a second variation of the locking mechanism
• Fig. 10 is a partial side elevation view of the binding according to the present invention, showing a third variation of the locking mechanism
• Fig. 11 is a partial side elevation view of the binding according to the present invention, showing a fourth variation of the locking mechanism
• Fig. 12 is a partial top view of the toe portion of the binding according to the present invention, showing a second variation of the bail;
• Fig. 13 is a partial top view of the toe portion of the binding according to the present invention, showing a third variation of the bail
• Fig. 14 is a partial top view of the toe portion of the binding according to the present invention, showing a variation of the attachment of the bail to the binding;
• Fig. 15 is a cross-sectional view of a first embodiment of a boot according to the present invention.
• Fig. 16 is a cross-sectional view of a second embodiment of a boot according to the present invention.
• Fig. 17 is a cross-sectional view of a third embodiment of a boot according to the present invention.
• Fig. 18 is a cross-sectional view of a variation of the third embodiment of a boot according to the present invention.
• the present invention includes a binding structure whose application relieves the exterior boot structure of any receiving apertures disposed in, on, or near the sole of the boot or its periphery.
• the structure of the bindings present, at one end, a latching mechanism disposed on a raised portion to engage the heel of the boot and, at the other end, a bail to engage the toe of the boot.
• the first embodiment of binding 10 of the present invention is generally depicted in Figs. 1-4.
• the first embodiment of boot B according to the present invention is depicted in Fig. 15, with other embodiments of that design being depicted in Figs. 16-18.
• binding 10 includes base 12, which attaches to an upper riding surface of the ski or snowboard in a manner conventional and well known to those of ordinary skill in the art. Particularly in the case of a snowboard, base 12 may attach to the riding surface at various positions and angles depending upon the particular stance of the rider. Again, such an attachment is well known in the art.
• base 12 Disposed on base 12 is frame 14 having lateral sides 16. At the end of frame 14 where the rider's heel is positioned, portion 18 is raised from base 12 and connects lateral sides 16.
• locking device 22 At the same end of frame 14, on raised portion 18, is locking device 22. While several variations of locking devices 22, 24, 26, 28 are contemplated by the present invention, the purpose of the locking device is to hold the rider's boot B securely in binding 10. As designed, the locking device permits the snowboarder to step into binding 10.
• Locking device 22 includes latch 30, which pivotally mounts and revolves about horizontal axis 32 on raised portion 18.
• Latch 30 is V-shaped with legs 34, 36 and vertex 38.
• Latch 30, pivotally mounted in an inverted position revolves about horizontal axis 32 at vertex 38.
• Latch 30 is biased so that leg 34 is resiliently positioned toward the toe of binding 10 to engage heel portion 40 of boot B.
• the bias may be applied by a spring or other mechanism known to those of ordinary skill in the art.
• locking device 24 includes V-shaped latch 42.
• Latch 42 may be pivotally disposed about horizontal axis 32 on raised portion 18 so that it is in an upright position.
• latch 42 includes engaging arm 44 attached to end 46 of leg 48.
• a bias is applied to latch 42 to cause arm 44 to resiliently engage heel portion 40 of boot B.
• the rider applies pressure to leg 52 to rotate latch 42 in a counterclockwise direction (as seen in Fig. 9).
• the bias of latch 42 will return latch 42 to its rest position.
• latch 42 permits the rider to step into binding 10.
• locking device 26 of binding 10 includes L-shape member 160 having first leg 161 and second leg 170. Affixed to first leg 161 is engaging arm 162 having first end 164 and second end 166. First end 164 is mounted to raised portion 18, while second end 166 resiliently engages heel portion 40 of boot B. As with the first embodiment, L-shaped member 160 is biased so that second end 166 resiliently engages heel portion 40 of boot B. When second end 166 engages heel portion 40, locking device 26 removably secures boot B to binding 10. As the rider steps into binding 10, second end 166 retracts until it nestles into heel portion 40 to secure boot B to binding 10.
• the rider need only apply pressure to second leg 170 to move L-shape member 160 in a clockwise direction (when viewing Fig. 10) so that second end 166 no longer engages heel portion 40.
• the bias of member 160 will return member 160 to return to its rest position.
• locking device 28 includes releasable spring-loaded member 172 having front end 174, back end 178, and spring 175.
• Front end 174 possesses angled structure 176 located at an upper surface of its tip to facilitate insertion of boot B into binding 10.
• Member 172 is biased such that front end 174 is resiliently biased by spring 175 toward the toe of binding 10 to engage heel portion 40 of boot B.
• member 172 removably secures boot B to binding 10.
• front end 174 retracts until it nestles into heel portion 40 to secure boot B to binding 10.
• the rider need only withdraw member 172 by grasping ring 177 affixed to back end 178. By moving member 172 in a direction opposing heel portion 40 of boot B, front end 174 disengages heel portion 40. After removing boot B and releasing ring 177, the bias of member 172 will return member 172 to its rest position.
• bail 54 is affixed to lateral sides 16. While several embodiments of bail 54, 70, 82 are contemplated by the present invention, the purpose of the bail is to restrain the movement of boot B while secured in binding 10. As designed, the bail permits the rider to step into binding 10.
• the first embodiment of bail 54 is depicted in Figs. 1, 2, 4 and 5.
• Bail 54 is U- shaped with legs 56, 58. Legs 56, 58 attach to lateral sides 16 of frame 12 by inserting legs 56, 58 in slots 53, 55 located in frame 14. Alternatively, as illustrated in Fig.
• legs 56, 58 may attach to frame 12 by affixing legs 56, 58 next to inner portions 57, 59 of lateral sides 16.
• Slots 53, 55, or alternatively lateral sides 16 may contain a hole or a plurality of holes 74 so that bolt 60 may insert through the hole to fasten legs 56, 58 to lateral sides 16.
• a pin may insert through the hole to fasten legs 56, 58 to lateral sides 16.
• bail 54 This downward pivot not only prevents unwanted damage to bail 54, but also enables the rider to step in the binding without interference from any preset high back positions. For example, as boot B initially inserts into binding 10, bail 54 remains downwardly pivoted until boot B engages the locking device. Upon engagement with the locking device, bail 54 then rotates to its operational position to restrain boot B.
• bail 54 substantially restrains toe portion 94, 116, 138 of boot B (see Figs. 15-18) by impeding its movement when secured in binding 10.
• legs 56, 58 may have a portion 59 raised from base 12 so that bail 54 may better restrain the toe portion of boot B.
• bail 54 may possess a rigid structure throughout its cross-section.
• center portion 64 of bail 54, located between legs 56, 58, may be flattened to enhance the engagement of bail 54 and the toe portion of boot B.
• the toe portion of boot B engages bail 54 so that the movement of boot B is restrained in the forward, up, down and side directions.
• legs 56, 58 of U-shaped bail 54 may be adjustably secured in the longitudinal direction to lateral sides 16 of frame 14.
• Lateral sides 16 may include a plurality of holes 74 for receiving bolt 76 through legs 56, 58 so that bail 54 may be adjustably affixed to lateral sides 16 at various longitudinal locations.
• lateral sides 16 may include continuous elongated slots 75 for receiving bolt 76 through legs 56, 58.
• bail 54 may adjustably affix to lateral sides 16 at any location within the range defined by slots 75. This longitudinal adjustment allows bail 54 to accommodate a range of boot sizes and brands.
• legs 56, 58 are affixed to lateral sides 16 at the appropriate position by removable bolt 76. Again, when the rider steps into binding 10, the toe portion of boot B engages bail 54 so that boot B is restrained.
• Bail 70 is U-shaped with legs 66, 68. Legs 66, 68 affix to lateral sides 72 of frame 14 by inserting legs 66, 68 into holes 67 having inserts 71 configured to receive legs 66, 68. In contrast to the first embodiment, bail 70, once affixed to frame 14, is stationary because legs 66, 68 are securely fastened to lateral sides 72.
• Bail 70 may be adjustably secured to lateral sides 72.
• Lateral sides 72 may include a plurality of holes 67 having inserts 71 configured to receive legs 66, 68.
• legs 66, 68 are affixed to lateral sides 72 through appropriate holes 57, 59 by inserting legs 66, 68 into inserts 61, 63.
• bail 70 may also possess a rigid structure throughout its cross-section.
• center portion 75 located between legs, 66, 68, may be flattened to enhance the engagement of bail 70 with the toe portion of boot B.
• bail 82 in yet another embodiment, this ability to accommodate a range of boot sizes and brands may alternatively be accomplished by use of U-shaped bail 82, as depicted in expanded detail in Fig. 13.
• bail 82 includes a rigid structure only at legs 84, 86 which attach to lateral sides 88 of frame 14.
• a flexible structure at a portion 90 is included on bail 82 between legs 84, 86.
• Portion 90 may be elastically biased, although an elastic bias is not required.
• portion 90 of bail 82 adapts to the contours of the rider's particular boot size and brand.
• bail 82 Because of the adaptability of bail 82, the toe portion of boot B does not require any specific configuration such as receiving structure 98, 120, 141 shown on boot B in Figs. 15-18. Once boot B is inserted into binding 10, the elastic bias of portion 90 restraints the movement of boot B. After removing boot B from binding 10, the bias of portion 90 will return portion 90 to its rest position.
• bail 82 may adjustably affix in the longitudinal direction to lateral sides 88 of frame 14 as previously described. Returning to the end of frame 14 where the rider's heel is positioned, a support member 180, 186 may be disposed on raised portion 18.
• support members 180, 186 are contemplated by the present invention, the purpose of a support member is to prevent the rider's leg from bending backward. As designed, the support member does not impede the rider's ability to step into binding 10. The support member, moreover, may be omitted entirely.
• support member 180 is depicted in Figs. 1-4.
• the support member 180 is pivotably disposed on raised portion 18.
• Support member 180 may include shaft 182, which is pivotally mounted to raised portion 18 of frame 14. As mounted, support member 180 may pivotally collapse against the upper surface of the ski or snowboard.
• support member 186 may be disposed on lateral sides 16 of frame 14. As with the first embodiment, support member 186 substantially prevents the rider's leg from bending backwards. As mounted, support member 186 may also pivotally collapse against the upper surface of the ski or snowboard.
• boot B includes a heel portion and a toe portion.
• the heel portion includes a receiving structure and the toe portion includes a receiving structure as well.
• the purpose for the receiving structure for the heel portion is to engage the locking device of binding 10
• the purpose for the receiving structure for the toe portion is to engage the bail of binding 10.
• the design of the receiving structure of boot B permits the rider to step into binding 10. Further, because of the design of bindings 10, the height of the receiving structures from the sole of boot B may vary depending upon the height of the locking device and bail from base 12 of binding 10.
• Boot B includes heel portion 92 and toe portion 94. These portions include respective receiving structures 96, 98 for communicating respectively with the locking device and the bail of binding 10.
• Receiving structure 96 includes ridge 100 disposed on heel portion 92 to engage the locking device. Ridge 100, located above the upper rear periphery 101 of sole 102, includes angled lower surface 104 and upper surface 106. When heel portion 92 is inserted in binding 10, angled lower surface 104 causes the locking device to gradually retract from its biased position. Once the lower surface 104 extends below the locking device, upper surface 106 of ridge 100 receives the locking device.
• receiving structure 98 includes ridge 108 disposed on toe portion 94 to engage the bail.
• Ridge 108 located above the upper front periphery 110 of sole 102, includes lip 111 having upper surface 112 for engaging the bail.
• toe portion 94 of boot B inserts into binding 10, upper surface 112 of ridge 108 engages the bail.
• a second embodiment of boot B includes heel portion 114 and toe portion 116, where these portions include respective receiving structures 118, 120 for communicating respectively with the locking device and the bail of binding 10.
• Receiving structure 118 includes insert 122 disposed at heel portion 114 to engage the locking device.
• Insert 122 located above the upper rear periphery 124 of sole 102, includes lip 126 having upper surface 128 for receiving the locking device.
• the locking device initially retracts as it engages lower heel portion 129. Once beyond lower heel portion 129, the locking device engages upper surface 128 to secure boot B to binding 10.
• Receiving structure 120 includes insert 130 disposed on toe portion 116 to engage the bail.
• Insert 130 located above the upper front periphery 125 of sole 102, is defined by upper lip 132 and lower lip 134. When toe portion 116 of boot B inserts into binding 10, insert 130 receives the bail between upper lip 132 and lower lip 134 to restrain the movement of boot B. Insert 130 may engage any of the embodiments of the bail.
• a third embodiment of boot B includes a heel portion 136 and toe portion 138, where these portions include receiving structures 140, 141 for communicating respectively with the locking device and the bail of binding 10.
• Receiving structure 140 includes depression 142 disposed at heel portion 136 to engage the locking device.
• Depression 140 located above the upper rear periphery 143 of sole 102, includes lip 144 having upper surface 146 for receiving the locking device.
• Depression 140 is defined by sides 145 because it wraps around heel portion 136 to only a certain degree depending substantially upon the dimensions of the locking device.
• Receiving structure 141 includes depression 148 disposed on toe portion 138 to engage the bail.
• Depression 148 located above the upper front periphery 150 of sole 102, is defined by upper lip 152 and lower lip 154. When the toe portion 138 of boot B inserts into binding 10, depression 148 receives the bail between upper lip 152 and lower lip 154 to restrain the movement of boot B. Depression 148 may engage any of the embodiments of the bail.
• a variation of receiving structures 140, 141 further includes thin layer 156, 158 of flexible elastomeric material.
• Thin layer 156, 158 covers receiving structures 140, 141.
• Thin layer 156, 158 not only maintains the original shape of the exterior of boot B but also allows a secure engagement between binding 10 and receiving structure 140, 141. Since it is disposed over receiving structures 140, 141, thin layer 156, 158 provides the exterior of boot B with a smooth continuous surface.
• the locking device and the bail engage receiving structures 140, 141, thin layer 156, 158 will assume the shape of receiving structure 140, 141 to allow the engagement of binding 10 to boot B.
• Gaps 159 located in between thin layer 156, 158 and receiving structure 140, 141, may be filled with a flexible foam to aid in the return of thin layer 156, 158 to substantially its original shape.
• the receiving structure variations may be added to the exterior of a boot.
• An external system including the appropriate ridges and/or inserts may be attached to a boot to enable the engagement of the boot with binding 10.
• the external system may include one or more members. In situations requiring two separate members, one member may be disposed inside the boot while the other member, configured to engage the first member, may be disposed on the exterior of the boot. To create the appropriate ridge and/or insert, the members are fastened together through the surface of the boot.
• the receiving structure of the heel portion of boot B may be disposed at any appropriate height from sole 102 of boot 10. This height depends substantially upon the height of raised portion 18 from base 12 of binding 10.
• the bail of binding 10 may include raised portion 59
• the receiving structure of the toe portion of boot B, corresponding to the bail may be disposed at any appropriate height from sole 102 of boot 10. Similarly, this height depends substantially upon the height of raised portion 59 from base 12 of binding 10.

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• Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)

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• 1998
  • 1998-09-22 EP EP98948401A patent/EP1027112A1/de not_active Withdrawn
  • 1998-09-22 AU AU94981/98A patent/AU9498198A/en not_active Abandoned
  • 1998-09-22 WO PCT/US1998/019699 patent/WO1999015245A1/en not_active Ceased

Non-Patent Citations (1)

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