Boot-binding system

Abstract

A boot-binding system includes a sole plate, integrated into an inner boot, that mates to a second sole plate that may be integrated into the floor of a pressurized vehicle or integrated into an outer boot configuration also referred to as a surface boot, a spring loaded pin/bushing arrangement couples the sole plates, while a latching mechanism located on the surface boot sole plate captures the heel of the inner boot sole plate against a spring loaded heel plate integrated into the surface boot sole plate that presses upwards against the inner boot heel.

Claims

1. An apparatus for fastening a foot to a surface comprising: a catch fixedly engaged with a sole of a piece of footwear proximal to a heel portion of said sole; and a heel mechanism fixedly engaged with said surface; and a latch movably engaged with said heel mechanism for removably engaging said catch, and an elastomeric pad fixedly engaged with said heel mechanism proximal to said catch; and a linkage movably engaged with said latch, said linkage comprising a horizontal member having a first end and a second end, the first end fixedly engaged with said latch; and a vertical member having a top end, a center, and a bottom end; and said horizontal member second end pivotally engaged with said vertical member bottom end; and said vertical member center pivotally engaged with a pivot; and said vertical member top end movably engaged with a spring; wherein the sole of a piece of footwear is pressed against said elastomeric pad and said latch is moved so as to removably engage said catch, said spring maintains the linkage in a normally closed position over said catch; movement of the vertical member against the spring pivots the vertical member and moves said horizontal member horizontally to release said catch, and wherein the elastomeric pad maintains pressure between said catch and latch, and wherein the piece of footwear is removably engaged with said surface.

2. The apparatus of claim 1 further comprising: a toe bar engaged with said surface; and said toe bar under adjustable spring tension; wherein the toe bar provides axial force toward the heel mechanism, and a user may insert at least one toe under said toe bar while engaging said catch to said latch, to removably engage at least one foot to said surface.

3. The apparatus of claim 1 further comprising: said surface fixedly engaged with a structure; wherein the user is held fast to the structure while removably engaged with said surface.

4. The apparatus of claim 1 wherein: said surface is the sole of an outer boot; wherein said outer boot is further engaged with a pressurized suit.

5. The apparatus of claim 1 further comprising: a protrusion extending from said surface; and a receptacle in said sole of a piece of footwear; wherein said protrusion fits in said receptacle for aligning said sole with said surface.

6. The apparatus of claim 1 further comprising: an elastomeric cover fitted over said heel mechanism; wherein said latch is operable through said elastomeric cover by deforming said elastomeric cover while said elastomeric cover prevents snagging of heel mechanism components with inner layers of a provided compression suit.

7. The apparatus of claim 1 further comprising: an elastomeric cover fitted over said heel mechanism; and a rigid cover, removably engaged with said elastomeric cover: wherein said latch is operable through said elastomeric cover and said rigid cover must be removed prior to operating said latch through said elastomeric cover.

8. An apparatus for fastening a foot to a surface comprising: at least one receptacle fixedly engaged with a sole of a piece of footwear; and at least one pin for being received by said at least one receptacle; and said at least one pin fixedly engaged with a surface; and said at least one receptacle including a spring plate for movably engaging with said at least one pin; and said spring in combination with said spring plate, exerting pressure on said pin; and a catch fixedly engaged with said sole of a piece of footwear; and said catch proximal to a heel portion of said sole; and a latch movably engaged with a heel mechanism for removably engaging said catch, and said heel mechanism fixedly engaged with said surface; and an elastomeric pad fixedly engaged with said heel mechanism proximal to said catch when said catch is removably engaged with said latch; wherein the sole of a piece of footwear is pressed against said elastomeric pad and said latch is moved so as to removably engage said catch, the elastomeric pad maintains pressure between said catch and latch, and wherein the piece of footwear is removably engaged with said surface.

9. The apparatus of claim 8 wherein: said receptacle is proximal to the toe of said sole.

10. The apparatus of claim 8 wherein: said surface fixedly engaged with a structure; wherein the user is held fast to the structure while removably engaged with said surface.

11. The apparatus of claim 8 wherein: said surface is the sole of an outer boot; wherein said outer boot is further engaged with a pressurized suit.

12. The apparatus of claim 8 further comprising: said spring having a first end and a second end; and said first end engaged with said spring plate; and said second end movably engaged with an adjustment screw that is coaxial with said spring; wherein movement of said adjustment screw changes the compression of said spring increasing pressure on said spring plate when moved in one direction, and decreasing pressure on said spring plate when moved in an opposite direction.

13. The apparatus of claim 8 further comprising: a linkage movably engaged with said latch, said linkage comprising: a horizontal member having a first end and a second end, the first end fixedly engaged with said latch; and a vertical member having a top end, a center, and a bottom end; and said horizontal member movably engaged with a spring providing tension on said horizontal member and maintaining it in a normally closed position over said catch; and said horizontal member second end pivotally engaged with said vertical member bottom end; and said vertical member center pivotally engaged with a pivot; and said vertical member top end fixedly engaged with a cord; wherein said spring maintains the linkage in a normally closed position over said catch; movement of said cord pivots the vertical member about said center and moves said horizontal member horizontally to release said catch.

14. The apparatus of claim 8 further comprising: said heel mechanism housed in a form including a beveled portion having a top and a bottom; and said bottom proximal to said latch; and said top above said latch; wherein said sole of a piece of footwear and said catch are guided toward said latch by said beveled portion, when a user steps into said heel mechanism.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective view of a first iteration of an example embodiment.

(2) FIG. 2 is a partial section view.

(3) FIG. 3 is a perspective, partial section, detailed view.

(4) FIG. 4 is a cross-section, detailed view.

(5) FIG. 5 is another cross-section, detailed view.

(6) FIG. 6 is a perspective, partial section, detailed view.

(7) FIG. 7 is a perspective, exploded view.

(8) FIG. 8 is a perspective view of a second iteration of an example embodiment.

(9) FIG. 9 is a rear exploded view.

(10) FIG. 10 is a front exploded view.

(11) FIG. 11 is partial section, detailed view.

(12) FIG. 12 is a rear perspective view.

(13) FIG. 13 is a rear perspective view illustrating a secondary cover.

DETAILED DESCRIPTION

(14) In FIG. 1 an inner boot 110 and outer boot 116 are illustrated as transparent for clarity.

(15) In FIG. 2, both inner boot and outer boot are illustrated in dashed lines illustrating the relationship between the inner boot 110, the outer boot 116 and a wearer's foot 130 toes 132.

(16) In FIGS. 1 and 2, an inner boot 110 is affixed to an inner sole plate 112 which includes a toe-pin receptacle 114 and a heel catch 126. The outer boot sole plate includes a heel-latch mechanism 122 (FIG. 1) for attaching the outer boot 116 to a leg of a pressurized suit. The outer boot has a ring structure 123 for connecting to the leg of a pressurized suit. The outer boot is affixed to an outer-sole plate 118 that includes a toe-pin mechanism 120 and a heel-latch mechanism 122. The heel-latch mechanism 122 employs a heel latch 128 that is spring-loaded to a normally closed position for fitting over an inner-sole plate catch 126. A release cord 124, when pulled, moves the linkage 134, which releases the outer-sole plate heel-latch 128. In some embodiments, the toe-pin receptacle 114 and toe-pin mechanism 120 combination is disposed just below the wearer's metatarsophalangeal joints such that the wearer's toes 132 are cantilevered over the toe-pin receptacle 114 and toe-pin mechanism 120 combination. This orientation of the toe-pin mechanism allows the toes to flex. One skilled in the art understands that the binding system illustrated as described, does not require permeation through the outer surface to actuate the linkage.

(17) In FIGS. 3 and 4, a toe-pin mechanism 120 is affixed to an outer-sole plate 118 and supports a toe pin 121. In some embodiments the toe-pin mechanism 120 is affixed to a base structure 119 that further is affixed to an outer-sole plate 118. A toe-pin receptacle 114 is affixed to an inner-sole plate 112. A toe pin 121 fits into a toe-pin receptacle 114 and seats against a pin spring-plate 138. The pin spring-plate 138 has a hole with a conical cross-section seating against a mating toe pin 121. The pin spring-plate 138 is held against the toe pin 121 by a spring 136. The compression tension on the spring 136 may be adjusted by the adjustment screw 140.

(18) FIGS. 5 and 6 show an example heel mechanism 122 that joins an inner-sole plate heel catch 126 with a latch 128 in an outer-sole plate. The heel mechanism 122 has a beveled heel receptacle 129 which houses a latch mechanism and guides the inner boot toward the latch mechanism. A latch 128 is supported by a shaft 148 that is connected to a linkage 142. The latch is held in a normally closed position with a spring, or other compressible elastic material 146. An example compressible elastic material 146 is shown in the example. One skilled in the art understands that a compression spring may also fit in the same space. The linkage 142 moves the shaft 148 so as to hold or release a heel catch 126 on an inner-sole plate 112. The linkage is actuated by a release cord 124 that extends upward from inside the outer boot to a location that may be reached by the wearer. The inner-sole plate 112 and catch 126 rest on compressible elastic material 144, holding the catch 126 fast against the latch 128. The elastic material 144 is attached to the outer-sole plate 118. One skilled in the art understands that a spring-loaded connection allows for dynamic movement of the system while maintaining surface-to-surface contact between components such as the catch 126 and latch 128.

(19) FIG. 7 shows the relationship between the inner-sole plate 112, inner-sole plate support structure 113, outer-sole plate 118 and outer-sole plate structure 117. The inner-sole plate structure 113 joins a pair of toe-pin receptacles 114 and a catch support structure 127. The inner-sole plate structure 113 is affixed to a sole plate 112 and provides rigidity to the sole plate 112 and further supports the catch 126. The outer-sole plate 118 is affixed to the outer-sole plate structure 117 which provides rigidity to the sole plate 118 and joins a pair of toe-pin mechanisms 120 and a heel mechanism 122. Connection surfaces 119 are fastened to the outer-sole plate 118.

(20) Referring to FIGS. 8, 9 and 10, FIG. 8 shows a transparently drawn outer boot 216, an inner boot 210, an inner-sole plate 212 and an outer-sole plate 218. FIG. 9 is a partially exploded view that shows an inner boot and an outer sole-plate. FIG. 10 is a partially exploded view that shows an inner sole-plate and an outer sole-plate. The outer sole plate 218 includes a heel-latch housing 222 which further includes a heel-latch mechanism cover 225. A flexible elastomeric heel-latch mechanism cover 225 keeps dust/debris out of the heel-latch mechanism, while allowing access to manipulate a linkage in the mechanism. The elastomeric cover 225 allows a user to release the inner sole plate from the outer sole plate without permeating the pressure barrier. A toe bar 208 is fastened to the outer sole plate 218 and holds the toe of the inner boot 210 attached to the outer sole plate 218. One skilled in the art understands that a user may insert a toe under a toe bar and then click the catch 226 into the latch 228 to fasten the inner sole plate, and thus the inner boot, to the outer sole plate. A set of seals 239 maintains a pressure barrier between the interior of the boot and thus the pressurized suit and the outer environment. The set of seals 239 provide multiple redundancies by sealing against the shaft while allowing movement of the shaft. An additional layer of environmental seal is provided by the elastomeric cover 225. One skilled in the art understands the requirement for multiple redundancies for critical systems.

(21) In some embodiments, the outer sole plate 218 may be fastened to a surface of a structure to allow a user to attach an inner boot and inner sole plate combination 210/212, and thus a foot or feet, to the outer sole plate 218 by inserting a toe under the toe bar 208 and fastening a catch 226 to a heel-latch mechanism 222. In this manner a user may remain in a substantially fixed position relative to the structure that the outer sole plate 218 is fastened to. This is particularly important when working in an unstable environment such as deep sea, micro gravity or zero gravity environments. In other embodiments, an outer sole plate 218 is part of an outer boot as illustrated in FIG. 8. In some embodiments a toe bar is an adjustable spring that applies an axial force toward the heel mechanism securing the inner sole plate to the outer sole plate under multi-directional movement. One skilled in the art understands that a toe bar 208 may be employed for fastening an inner boot to a binding that is affixed to a structure although other applications may employ a heel mechanism affixed to a structure for engaging the heel of an inner boot without the need to engage a toe under a toe bar.

(22) Referring to FIG. 12, the outer boot 216 includes a structural ring 223 for attaching outer boot 216 to the leg of a pressurized suit. Cover 225 also acts as a tertiary seal of the inner space suit pressure barrier, in compliance with NASA requirement for critical seals such as maintaining a space suit's internal environment.

(23) In all embodiments the strength required to compress and release included spring elements are within the strength values outlined in NASA/SP-2010-3407 titled HUMAN INTEGRATION DESIGN HANDBOOK for male and female crew ranging from 5.sup.th to 95.sup.th percentile, and may be easily modified if the percentile range increases.

(24) An inner-sole plate 212 is engaged with an inner boot 210 and an outer-sole plate 218. A heel mechanism 222 is connected to an outer-sole plate 218 which is in turn connected to the upper of an outer boot 216 which includes a connection ring 222 which connects the outer boot to the let of a pressurized suit. The inner-sole plate 212 is affixed to an inner boot 210. One skilled in the art understands that an inner-sole plate may be manufactured as part of an inner boot 210 or may be affixed to an existing boot. The inner-sole plate includes a catch 226 for engaging with a latch 228 in the heel mechanism 222. The inner-sole plate further includes at least one alignment hole 252 proximal to the heel of the inner boot 210, for alignment with at least one alignment pin 250 in the outer-sole plate 218. A compressible elastic material 244 surrounds alignment pin(s) 250. Dashed lines 209 depict the alignment between alignment hole(s) 252 and alignment pin(s) 250. One skilled in the art understands that pins may be machined in various shapes including cylindrical, ovate or multi-sided to prevent twisting. In some embodiments a catch 226 is designed with a sufficiently low profile so as to minimize snagging on the interior surfaces of a pressurized suit.

(25) FIGS. 11 and 12 illustrate the heel mechanism 222 of example embodiment 200. An outer-sole plate 218 includes at least one line-up pin 250 that aligns with at least one hole 252 in the inner-sole plate 212. An elastomeric pad 244 provides pressure between the catch 226 and latch 228 when the inner-sole plate 212 and outer-sole plate 218 are connected at the heel mechanism 222. The inner-sole plate 212 includes a catch 226 that mates with a latch 228 in the heel mechanism 222. The latch 228 is connected to a shaft 248 that is coupled by a pivot to a linkage 242. The linkage is connected to a spring 254. One skilled in the art understands that a spring 254 may be a compression spring and may also be a compressible elastomeric material or a gas piston or the like. An outer covering 225 is made up of a flexible material such as a castable elastomer or elastomeric material. The latch 228 is released by moving the linkage 242 against the spring 254 so as to compress the spring, thus pivoting the linkage and moving the shaft 248 away from the catch 226 to release the catch 226 from the latch 228. A secondary cover 258 covers the elastomeric cover 225 to prevent unintended actuation of the linkage. One skilled in the art understands that a secondary action is often required for the release of a mechanism to prevent unintended actuation. In other embodiments where a secondary action is not required the apparatus may function with a single action and without the secondary cover 258. The elastomeric cover 225 provides protection from the mechanism from ambient dust and debris.

(26) The inner sole to outer sole combinations described above are applicable to any number of shoes or boots intended to secure a wearer to a platform or within a surface boot or shoe.