US20120042543A1 - Footwear with retractable spikes - Google Patents

Footwear with retractable spikes Download PDF

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Publication number
US20120042543A1
US20120042543A1 US13138974 US201013138974A US2012042543A1 US 20120042543 A1 US20120042543 A1 US 20120042543A1 US 13138974 US13138974 US 13138974 US 201013138974 A US201013138974 A US 201013138974A US 2012042543 A1 US2012042543 A1 US 2012042543A1
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US
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Prior art keywords
spike
plate
apparatus
mounted
actuating
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
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US13138974
Inventor
Darrell Patrick Bachmann
Peter Klein
Amanda Michelle Koop
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Kickspike Enterprises Ltd
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Kickspike Enterprises Ltd
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    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43CFASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
    • A43C15/00Non-skid devices or attachments
    • A43C15/14Non-skid devices or attachments with outwardly-movable spikes
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B3/00Footwear characterised by the shape or the use
    • A43B3/0036Footwear characterised by a special shape or design
    • A43B3/0042Footwear characterised by a special shape or design with circular or circle shaped parts
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B5/00Footwear for sporting purposes
    • A43B5/001Golf shoes
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43CFASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
    • A43C15/00Non-skid devices or attachments
    • A43C15/02Non-skid devices or attachments attached to the sole
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43CFASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
    • A43C15/00Non-skid devices or attachments
    • A43C15/06Ice-gripping devices or attachments, e.g. ice-spurs, ice-cleats, ice-creepers, crampons; Climbing devices or attachments, e.g. mountain climbing irons
    • A43C15/08Reversible ice-spikes

Abstract

An apparatus for selectively extending and retracting spikes includes spike actuating assemblies mounted to, and cooperating between, a first plate and a first slider frame, and a second plate and a second slider frame, pivotally mounted to the first plate and first slider frame respectively. Each spike actuating assembly contains a spike. The first slider frame is translatable to actuate the spike actuating assemblies to thereby extend and retract the spikes from the spike actuating assemblies. A cyclically alternating positioner is mounted on the first plate for moving the first and second slider frames relative to the first and second plates. The positioner has only a single actuating button adjacent the heel. Depressing the actuating button a first time causes the positioner to move the slider frames to extend the spikes. Depressing the actuating button a second time causes the positioner to move the slider frames to retract the spikes.

Description

    FIELD OF THE INVENTION
  • The present invention relates to footwear in general and to a method and apparatus for providing footwear with selectively extendable spikes in particular.
  • BACKGROUND OF THE INVENTION
  • Traction is necessary for proper performance in many endeavors including those involving sports and recreation, professions and trades including fire fighting and policing, in the military and in particular infantry, to name just a few. For example, in the sport of golf, proper traction is required during full swing shots such as the tee shot and many fairway shots. Due to the grass covered surfaces on which golf is played, however, proper traction may be difficult. It is well known that the addition of spikes to the bottom of footwear for golf shoes helps to provide the necessary traction on such a surface. Such spikes were traditionally made of sharpened elongate metal projections.
  • Traditional metal spikes, however, suffered from the disadvantage of being damaging to some surfaces. In particular, the putting greens surfaces which have a significantly shorter grass length have been found to be damaged by metal spikes. Such metal spikes have been known to cause significant damage to putting greens by leaving holes and ridges in the ground as well as damaging the more delicate putting green grasses.
  • One solution to the above disadvantages of metal spikes has been to replace the traditional metal spikes with a spike insert comprising a plurality of plastic or rubber protrusions which are also known as the “soft spike”. Soft spikes have resulted in less damage to the putting greens surfaces. Accordingly, many golf courses have enacted rules prohibiting traditional metal spikes in favor of soft spikes. However, soft spikes have also reduced the traction provided to the golfer during full swing shots such as the tee shot. Therefore, while most recreational golfers now use soft spikes, many professional players continue to use metal spikes. The use of metal spikes for professional golf tournaments results in a significant amount of damage to the putting greens which is both costly to repair as well as obstructive to the play of later players.
  • Soft spikes have also not completely eliminated the damage occurring to golf course greens. As developers of soft spikes have attempted to increase the traction provided by soft spikes, the amount of damage these spikes inflict on putting greens increases. In particular, it is known that metal spikes and newer designs of soft spikes results in damage to the structure of the grass making these grasses more susceptible to disease and other difficulties. Putting greens therefore require more fungicides, pesticides and water to ameliorate the damage caused to the grass from metal and soft spikes.
  • In these and other uses such as in the military, for use outdoors, or in sports other than golfing, or for other recreational or trades or professional uses where selectively actuable fraction offered by selectively extendible and retractable spikes is advantageous, it is also advantageous and an object of the present invention to provide a structure substantially or more advantageously even entirely enclosed from the outside elements in a sole which is rugged and yet flexes with at least the toe portion of the foot of the wearer.
  • In the prior art attempts have been made to provide shoes with selectively extendable and retractable spikes. Examples of such shoes may be found in U.S. Pat. Nos. 4,821,434 to Chein, 6,058,627 to Violette et al., 5,299,369 to Goldman, 6,256,907 to Jordan et al., and 4,375,729 to Buchanen, III, and in Canadian patent application no. 2,510,291 filed May 27, 2005 by Jones. However, such devices have not been suitable as for example in some there are separated controls to extend or retract the spikes. Several of these controls are located in the toe of the sole where they may cause tripping while climbing or in inclined terrain or be prone to actuation for example during the follow-through of a golf swing, etcetera. Other designs in the prior art are inferior in that relatively large pieces of actuating structure are exposed outwardly of the sole making damage to the structure or the intrusion of water, dirt, snow, etcetera more likely.
  • Other attempts have required the user to activate the extension or retraction of the spikes from the sole of the shoe by manipulating a tab lever, screw or other device on the sole of the shoe itself. Examples of such devices may be found at U.S. Pat. Nos. 5,836,092 to Yarnell, 5,497,565 to Balgin, 6,389,714 to Mack, 5,956,870 to Grossman et al., 6,256,907 to Jordan et al., 5,732,482 to Remington et al., 5,870,838 to Khayat and 5,269,080 to Davis. Such devices have not been acceptable due to the need to bend down to extend or retract the spikes which may be difficult for some users and time consuming.
  • SUMMARY OF THE INVENTION
  • The present invention is an apparatus for selectively extending and retracting spikes from the sole of a footwear article, where the sole has a heel section, a center under-the-arch of the foot section (herein a “center” section), a ball-of-the-foot section (herein a “ball” section), and toe section extending consecutively in a longitudinal direction along the sole. A plurality of spike apertures are formed through the heel, ball and toe sections. The apparatus includes spike actuating assemblies mounted to, and cooperating between a first plate and a first slider frame, and a second plate and a second slider frame. Each spike actuating assembly contains a spike which is locatable within a corresponding one of the spike apertures in the sole.
  • The first plate has heel, center and ball portions sized to extend over so as to cover respectively the heel, center and ball sections of the sole when the first plate is mounted on the sole. The first slider frame is elongate and longitudinally translatable mounted flush on the first plate. The first slider frame has heel, center and ball sub-frames covering respectively the heel, center and ball portions of the first plate. The first slider frame is translatable between first and second positions. The first slider frame is operable to actuate the spike actuating assemblies to thereby extend the spikes from the spike actuating assemblies at the first position and to retract the spikes at the second position.
  • A cyclically alternating positioner is mounted on the first plate for moving the first slider frame between the first and second positions. The positioner has only a single actuating button adjacent the heel portion. Depressing the actuating button a first time causes the positioner to move the first slider frame to the first position. Depressing the actuating button a second time causes the positioner to move the first slider frame to the second position.
  • The second plate is adjacent a front end of the ball portion of the first plate so as to cover the toe section of the sole when the first and second plates are mounted on the sole. The second slider frame is slidably mounted flush on the second plate. The second slider frame pivotally is mounted to a front end of the ball sub-frame of the first slider frame. At least one spike actuating assembly is mounted on the second plate. When the first slider frame is moved between the first and second positions, the second slider frame is correspondingly simultaneously moved relative to the second plate and correspondingly actuates the spike actuating assembly on the second plate to simultaneously extend and retract a corresponding the spike therefrom.
  • Each spike actuating assembly further comprises a rigid housing mounted to the first plate and slidably encases a corresponding spike. In one preferred embodiment a knee-lever linkage is pivotally mounted at a first end thereof to the rigid housing and at an opposite second end to the first slider frame. The knee-lever linkage includes at least an upper link and a lower link pivotally mounted to one another at a mid-pivot between the first and second ends of the knee-lever linkage. The mid-pivot is connected to the corresponding spike. When the first slider frame is in the first position so as to extend the corresponding spike the upper and lower links are substantially linearly aligned and collectively upwardly inclined so as to transfer a substantial vector component of an upward force acting on the corresponding spike to the rigid housing via the mid-pivot and the linearity of the substantially linearly aligned upper and lower links.
  • In one preferred embodiment the center portion of the first plate is waisted when viewed in planform relative to a width of the heel and ball portions. The center sub-frame of the first slider frame is correspondingly waisted so as to substantially conform in width when overlaid onto the center portion.
  • The positioner may in one embodiment include a cyclical actuator mounted both on the center portion of the first plate and the center sub-frame of the first slider frame so as to cooperate therebetween to drive the first slider frame between the first and second positions relative to the first plate. In this embodiment a drive member extends between the button and the cyclical actuator.
  • Advantageously the spike actuating assemblies are mounted on the first plate in spaced apart array so as to provide a longitudinally extending unobstructed center corridor along the first plate extending substantially the entire length of the first plate. The array is also longitudinally spaced to provide longitudinal spacing between the plurality of spike actuating assemblies. The first slider frame includes a center back-bone frame extending substantially completely along the heel, center and ball sub-frames. The back-bone frame freely slides along the center corridor of the first plate. The first slider frame includes laterally extending arms from the center back-bone frame cooperating with the of spike actuating assemblies so as to actuate the spikes.
  • The laterally extending arms may advantageously further include longitudinally extending arms at the distal ends of the laterally extending arms in a T-shape for example, so as to define substantially U-shaped brackets around each spike actuating assembly. The U-shaped brackets drive each spike actuating assembly simultaneously from opposite sides thereof.
  • The first plate may further include guide members cooperating with the first slider frame to constrain sliding translation of the first slider frame between the first and second positions, and to constrain the translation to be flush translation substantially flush along the first plate. In one embodiment the flush translation is without any vertical translation of the first slider frame relative to the first plate.
  • The actuating button may comprise a plunger button acting against a return biasing spring. The plunger button may be cantilevered from a heel portion of the sole in a substantially horizontal plane. A portion of the sole covers the actuating button, or the actuating button may be contained within the sole. The positioner is cyclically actuated by single consecutive pushes of the button applied to rear of the sole against a return biasing force of a single resilient biasing spring. The spring may act against and between the first plate and the button. The spring may be a helically coiled spring. A rod may extend from the button along the heel portion to the center portion of the first plate. The rod may be journalled through the helically coiled spring, and may be substantially parallel to the first plate and substantially longitudinally aligned.
  • In a preferred embodiment a third link in the knee-lever linkage is pivotally connected between the mid-pivot and an upper end of the corresponding spike. Advantageously, the upper link is mounted to the housing at an upper end of the housing, and the lower link is mounted to the first slider frame. In one embodiment the housing is a spike guide which defines a substantially vertical silo for a spike to slide vertically therein as the mid-pivot is lowered or elevated upon translation of the first slider frame between the first and second positions respectively.
  • BRIEF DESCRIPTION OF THE DRAWINGS
  • In drawings which illustrate embodiments of the invention wherein similar characters of reference denote corresponding parts in each view,
  • FIG. 1 is in front perspective view, a sole containing the spike actuating mechanism according to the present invention.
  • FIG. 2 is a bottom perspective view of the sole of FIG. 1.
  • FIG. 3 is, in front perspective view the spike actuating mechanism of FIG. 1 mounted to the under-sole.
  • FIG. 4 is, in front perspective view, the shifter frame of FIG. 3.
  • FIG. 5 is, in bottom perspective view, the shifter frame of FIG. 4 showing the pins and pin holder of the push button actuating mechanism mounted thereto.
  • FIG. 6 is, in rear perspective view, the spike actuating mechanism of FIG. 3 with the under-sole, spike gaskets, shifter frame, and actuating rod removed.
  • FIG. 7 is the view of FIG. 6 with the shifter frame and leaf spring shown and with the mounting plate removed.
  • FIG. 8 is the combined views of FIGS. 6 and 7 with the shifter frame mounted overlaying the mounting plate.
  • FIG. 9 is, in enlarged perspective view, one of the knee-link assemblies and its corresponding spike taken from FIG. 7.
  • FIG. 10 is, in side elevation view, an enlarged portion of the spike actuating mechanism of FIG. 6.
  • FIG. 11 is, in bottom view, the spike actuating mechanism of FIG. 6.
  • FIG. 12 is, in plan view, the spike actuating mechanism of FIG. 11.
  • FIG. 13 is, in plan view, the spike actuating mechanism of FIG. 8.
  • FIG. 14 is, in plan view, an enlarged view of the front end of the spike actuating mechanism of FIG. 13.
  • FIG. 15 is, in perspective view, the spike actuating mechanism of FIG. 14 with the shifter frame removed.
  • FIG. 16 is, in side elevation view, the spike actuating mechanism of FIG. 8.
  • FIG. 17 is, in enlarged perspective view, the heel portion of the spike actuating mechanism of FIG. 6 wherein two outermost knee-links have been removed from one spike guide and wherein the single outermost knee-link has been removed from another of the spike guides to illustrate in more detail the arrangement of the three knee-links on either side of each spike guide in the spike actuating mechanism according to the present invention.
  • FIG. 18 is in enlarged perspective view the heel portion of the spike actuating mechanism of FIG. 3.
  • FIG. 19 is, in perspective view, an enlarged center portion of the spike actuating mechanism of FIG. 6.
  • FIG. 20 is a further enlarged view of the push button actuator as illustrated in FIG. 19 with the pin holder removed.
  • FIG. 21 is, in top rear perspective view, a flexible sole containing the spike actuation assembly according to one embodiment of the present invention.
  • FIG. 22 is the perspective view of FIG. 21 with the top plate of the spike actuation assembly removed and with the upper housing of the push button release mechanism also removed.
  • FIG. 23 is the perspective view of FIG. 22 with the spike actuation assembly removed from the sole.
  • FIG. 24 is, in front top perspective view, the spike actuation assembly of FIG. 21.
  • FIG. 25 is the perspective view of FIG. 24 with the top plate of the main spike actuation sub-assembly removed and with the push button release mechanism housing also removed.
  • FIG. 26 is, in bottom front perspective view, the spike actuation assembly of FIG. 24.
  • FIG. 27 is the perspective view of FIG. 25 with the top plate on the toe portion spike actuation sub-assembly removed.
  • FIG. 28 is the perspective view of FIG. 26 with the gaskets removed from the spike guides.
  • FIG. 29 is a partially cut-away, enlarged view of the front of the spike actuation assembly of FIG. 27.
  • FIG. 29 a is, in partially cut-away side elevation view, one of the knee linkage assemblies of FIG. 29 showing a spike in its lowered fully extended position.
  • FIG. 29 b is the side elevation view of FIG. 29 a with the spike in its fully elevated retracted position.
  • FIG. 30 is, in top rear perspective view, an enlarged partially cut-away portion of the spike actuation assembly of FIG. 27.
  • FIG. 31 is a further enlarged view of the perspective view of FIG. 30.
  • FIG. 32 is a further enlarged view of the pivoting linkage between the main and toe portion spike actuation sub-assemblies partially cut-away pair of ball joints on opposite ends of the linkage drive shaft.
  • FIG. 33 is and enlarged view of the heel portion of the spike actuation assembly of FIG. 21.
  • FIG. 34 is a bottom perspective view of one embodiment of the spike gaskets according to the present invention showing a spike extending therethrough.
  • FIG. 34 a is, in bottom perspective view, a further embodiment of a spike gasket according to the present invention.
  • FIG. 34 b is, in side elevation view, the spike gasket of FIG. 34 a.
  • DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION
  • Sole 10 provides a resilient housing for example standing approximately between one half and three quarters of an inch high to define by a perimeter wall 10 a and enclosed internal cavity 12 in which is mounted the spike actuation assembly according to the present invention.
  • The spike actuation assembly includes a mounting plate 14 on which are formed or mounted substantially vertically up-standing spike guides 16. In the illustrated embodiment which is not intended to be limiting, four spike guides 16 are provided on the heel portion 14 a, four spike guides 16 on ball portion 14 b, and two spike guides 16 on separate toe mounting plate 18. A shifter frame 20 is mounted overlaid onto mounting plate 14 so as to overlay sub frame 20 a onto heel portion 14 a and sub frame 20 b onto ball portion 14 b. Sub-frames 20 a and 20 b are interconnected by a relatively narrower or waisted center sub-frame 20 c which overlays onto a corresponding waisted portion 14 c of mounting plate 14.
  • Sub-frames 20 a and 20 b each include oppositely disposed t-frames 22 extended cantilevered on members 22 a from center sub-frame extensions 20 d and 20 e extending into sub-frames 20 a and 20 b respectively from the corresponding ends of center sub-frame 20 c. Gussets 22 b lend rigidity to members 22 a at the intersections of members 22 a with sub-frames 20 e and 20 d, and also lend rigidity to t-frames 22.
  • Pins 22 c are mounted onto the opposite ends of the cross bars of t-frames 22 and are laterally aligned, inwardly disposed in opposed facing relation to the pins 22 c mounted on the opposite t-frame 22. In total four t-frames 22 are mounted to the center section of shifter frame 20, disposed so as to define a generally rectangular frame having a narrow waisted section in the middle. The t-frames 22 in conjunction with the sub-frames 20 d and 20 e form generally U-shaped structures which support pins 22 c on a first side of the U-shape and pins 24 on the opposite side of the U-shape, mounted so as to extend laterally of sub-frames 20 d and 20 e. Pins 24 align in opposed facing relation with the corresponding pins 22 c on the corresponding t-frame 22.
  • Pins 22 c are mounted to one end of exterior knee-links 26. The opposite ends of exterior knee-links 26 are pinned by means of pins 28 a to the common ends of knee-links 28 and knee-links 30.
  • The pins 24 and the opposite ends of shaft 32 are pivotally mounted to one end of interior knee-links 34. Interior knee-links 34 are pinned by pins 28 b to the common ends of knee-links 28 and knee-links 30. The opposite ends of knee-links 28, opposite from pins 28 b are pivotally mounted to pins 28 a rigidly mounted to and extending laterally from spike guides 16. The opposite ends of knee-links 30, opposite from pins 28 b are pivotally mounted to the upper ends of spikes 36 by pins 30 a.
  • Spikes 36 are slideably mounted within vertically elongate generally cylindrical hollow bores 16 b formed in spike guides 16. Oppositely laterally disposed vertical slots 16 c are formed in the side-walls of cylindrical bores 16 b. The ends of knee-links 30 opposite pins 28 b are pivotally mounted to spikes 36 by pins 30 a extending from knee-links 30 through slots 16 c.
  • Longitudinal translation of shifter frame 20 in direction A pulls exterior knee-links 26 and interior knee-links 34 simultaneously in direction B thereby driving knee-links 30 in direction C as constrained by slots 16 b. This drives spikes 36 downwardly in direction D into their fully extended position. Once in their fully extended position, spikes 36 are held in place by the tension provided by shift frame 20 on knee-links 26 and 34, transmitted to knee-links 30 by pins 28 b, and transmitted to spikes 36 by pins 30 a. It is important to note that most of the reactive force resisting the retraction of spikes 36 in direction D′ comes not from an upward pressure applied to shifter frame 20 via the pins and links but rather as a result of an upward force acting on spike guides 16 by the transfer of a reactive force along substantially that of force vector line E shown in dotted line. As indicated by force vector line E, links 28 and 30 are substantially co-linear when the spikes are fully extended. Thus most of the reactive force resisting the pushing of spikes 36 back up bores 16 b when a user wearing footwear containing soles 10 according to the present invention steps down onto firm or solid ground, is transferred between spikes 36 and spike guides 16 by pins 30 a, substantially along the longitudinal axis of knee-links 30, and via pins 28 b to be transferred substantially along the longitudinal axis of knee-links 28, and then via pins 28 a to spike guides 16. Thus, rather than bearing the brunt of the reactive force, shifter frame 20 primarily maintains tension on knee-links 26 and 34 in direction A and thereby tension on the junction between links 28 and 30.
  • When it is desired to retract spikes 36 upwardly so as to occupy bores 16 b, the push button release mechanism 48 as better described below is actuated by pressing button 38 in direction F and then releasing button 38. This releases rod 40 so that rod 40 may translate in direction G urged by the resilient expansion of helical coil spring 42 mounted between button 38 and end plate 44. End plate 44 is rigidly mounted to so as to vertically extend from the end of heel portion 14 a of mounting plate 14. Button 38 is rigidly mounted on the rear most end of rod 40. Rod 40 extends longitudinally along and over heel portion 14 a and is rigidly mounted to shifter frame 20 at its end opposite to button 38, and in particular to sub-frame 20 d by means of a pair of brackets 46.
  • Translation of rod 40 in direction G by the action of spring 42 urging button 38 in a direction opposite to direction F, translates shifter frame 20 in direction A′, that is, opposite to direction A. As shifter frame 20 translates in direction A′, t-frames 22 and in particular pins 22 c drive knee-links 26 and 34 upwardly in a direction opposite to direction B thereby drawing knee-links 30 upwardly in a direction opposite to direction C guided upwardly along slots 16 b, to thereby retract spikes 36 upwardly in direction D′, that is, opposite to direction D. Shifter frame 20 and therefore spikes 36 are held in that position by the resilient biasing of spring 42 acting on rod 40.
  • When it is desired to extend spikes 36 from their retracted position, button 38 is again pushed in direction F and released. Pushing button 38 collapses spring 42, driving rod 40 in a direction opposite to direction G, and thereby driving shifter frame 20 in direction A so as to operate the knee-links in the manner described above. In a preferred embodiment it is understood that the distal end of button 38 would only protrude from the heel end of sole wall 10 a sufficiently to be operable by a rearward kicking action of sole 10, the translation distance of rod 40 being kept to the minimum necessary to actuate the push button controller 48 as better described below. In one preferred embodiment, a resilient skin or cover or extension or compartment of sole wall 10 a extends around so as to completely cover button 38 to thereby minimize the likelihood of intrusion of water, dirt or other material into the cavity 12 within sole 10. It is understood that, although not shown, seals (not shown) such as known in the art would be employed around button 38 where the button extends from the sole (if not fully contained within the sole) and around spikes 36 where they extend through rigid spike gaskets 50. Spike gaskets 50 are rigidly mounted into the underside of under-soles 10 b. In one embodiment, a flexible fore-sole 10 c is a affixed to the front edge of under sole 10 b to allow for the upward flexing of the toe-end of sole 10 as toe mounting plate 18 pivots upwardly during use as better described below.
  • Translation of shifter frame 20 in direction A also shifts toe shifter frame 52 forwardly in a longitudinal direction forward of ball portion 14 b of mounting plate 14 via shaft 32 and toe shifter links 54. Toe shifter links 54 are pivotally mounted at one end to shaft 32 and pivotally mounted at their opposite ends to toe shifter frame 52 so as to directly transmit longitudinal translation of shifter frame 20 to toe shifter frame 52 while allowing rotation of toe shifter frame 22 and toe mounting plate 18 in direction H out of a plane parallel to that of mounting plate 14. Rotation of toe shifter frame 52 and toe mounting plate 18 in direction H about both axis of rotation I and shaft 32 provides for flexing of the toe portion of sole 10 for example while a user is walking while wearing footwear containing soles 10, without interfering with the actuation of a pair of spikes 36 mounted in a corresponding pair of spike guides 16 on toe mounting plate 18.
  • The operation of the spike actuators cooperating on toe mounting plate 18 with toe shifter frame 52 are as described above with respect to the spike actuators on mounting plate 14. Thus toe shifter frame 52 is W-shaped so as to define a pair side by side U-shaped collars and corresponding corner reinforcing gussets. In particular, the arms 52 a and base legs 52 b of toe shifter frame 52 are reinforced corner gussets 52 c and rigidly support at the distal ends of arms 52 a pins 22 c. As before, pins 22 c are pivotally mounted to exterior knee-links 26 and interior knee-links 34, themselves pivotally mounted to knee-links 28 and 30 resulting in vertical actuation of spikes 36 upon horizontal translation of shifter frame 20 as transmitted to toe-shifter frame 52, where sub frame 20 e is pivotally mounted onto shaft 32 by hooked tangs 20 f interleaved between and one either side of toe shifter links 54.
  • In a preferred embodiment, toe shifter frame 52 and corresponding toe mounting plate 18 are laterally offset relative to shifter frame 20 and corresponding mounting plate 14 so as to fit within the asymmetric plan form of a conventional shoe sole, that is, so as to fit within the available area in a toe cap section of the sole forward of the ball portion corresponding to the ball of the foot of the user. In one preferred embodiment which is not intended to be limiting, this arrangement allows for the mounting of two laterally adjacent spike actuating mechanisms on toe mounting plate 18, for substantially equally spaced apart spike actuating mechanisms on ball portion 14 b, and for substantially equally spaced apart spike actuating mechanisms on heel portion 14 a. The spacing apart of the spike actuating mechanisms on the heel and ball portions 14 a and 14 b of mounting plate 14 provide a substantially centrally aligned longitudinally extending corridor between the left and right spike actuating mechanisms on the heel and ball portions of the mounting plate thereby providing room for the shifter frame guides 56 and the push button actuator 48. Shifter guides 56 may include bolts or screws having heads 56 a which overlap on to lands 20 g so as to hold the shifter frame 20 vertically downwards onto mounting plate 14, lands 20 g defining slots 20 b along which the bolts or screws and corresponding heads 56 a slide. The ends of slots 20 h provide stops governing the extent of the longitudinal translation of shifter frame 20 relative to mounting plate 14. The bolts or screws threadably mount down into correspondingly threaded nuts 58 or the like mounted on mounting plate 14 beneath slots 20 h.
  • Push button actuating device 48 is modeled in its function on that of a push button switch sold by C & K Components under model number PN42LENA02QE and distributed by NEP Electronics Inc. of Wooddale, Ill., USA. Other push-button cyclically actuating positions would work as would be known to one skilled in the art. Push button actuating device 48 includes a leaf spring 60, mounted by a fastener 60 a to the top side of shifter frame 20. Leaf spring 60 has a center opening so that the leaf spring fits over pin holder 62 biasing free end 62 a downwardly. The opposite end of pin holder 62, swivel-mounted end 62 b, is pivotally mounted to shifter frame 20 by means of pin 62 c so as to allow free end 62 a to swivel laterally relative to shifter frame 20 and mounting plate 14 and also to allow free end 62 a to deflect a small amount vertically. Pin 62 d is mounted under free end 62 a so as to depend vertically downwards therefrom. The lower most free end of pin 62 d is free to move within a wide aperture 20 i in sub frame 20 c so that shifter frame 20 does not interfere with the lateral motion of pin 62 d as it travels within channel guides 64 formed in or mounted on waisted portion 14 c of mounting plate 14.
  • Pin 62 d is resiliently biased in direction J by spring 42 acting on rod 40 and thereby acting on shifter frame 20 to resiliently urge shifter frame 20 in direction A′. Because pin 62 d is mounted onto shifter frame 20 by means of pins 62 c and pin holder 62, urging of shifter frame 20 in direction A′ thereby also urges pin 62 d in direction J. Within channel guides 64, an encircling variable-depth channel 64 a encircles a rigid island 64 b. Island 64 b defines a concave cusp 64 c. When pin 62 d is positioned against cusp 64 c, and in particular against the vertex 64 d of the cusp surface of island 64 b, spring 42 is compressed and shifter frame 20 is translated into its forward-most position corresponding to when spikes 36 are fully extended. When button 38 is then depressed in direction F, thereby driving rod 40 forwardly relative to mounting plate 14, shifter frame 20 is advanced slightly further forwardly thereby pulling pin 62 d along with it in a direction opposite to direction J. This forces pin 62 d in direction K from its position resting against the vertex 64 d while the base of pin 62 d rests on step 64 e. The trajectory of travel of pin 62 d is governed by the walls of channel 64 a on step 64 e. Once pin 62 d has traveled the length of step 64 e in direction K, pin 62 d drops down from step 64 e onto inclined channel floor 64 f under the resilient urging of leaf spring 60 acting downwardly on free end 62 a of pin holder 62.
  • Thus once button 38 is released so as to allow translation of rod 40 in direction G as spring 42 expands, shifter frame 20 translates in direction A′, that is, in a reversed direction to direction A, thereby translating pin 62 d in direction 7 so that the base of pin 62 d follows along the inclined floor 64 f of channel 64 a. As shifter frame 20 thus translates rearwardly relative to mounting plate 14, pin 62 d follows in the trajectory defined by the walls of channel 64 a to thereby follow around island 64 b to a position rearmost in channel Ma where further rearward translation in direction J of pin 62 d is halted by pin 62 d encountering the rearward most curvature position 64 g of channel 64 a. At this point pin 62 d cannot translate in direction J any further and thus rearward translation of shifter frame 20 is halted. This rearward-most position coincides with the rearwardly shifted position of shifter frame 20, that is, coinciding with the fully retracted position of spikes 36.
  • Upon the next pushing of button 38 in direction F, rod 40 and shifter frame 20 are again translated forwardly and pin 62 d advances the balance of the path around channel Ma and in particular along the balance of the inclined floor 64 f in direction L whereupon it rounds the forward turn in direction M thereby dropping down from the raised surface of floor 64 f down onto step 64 h. From there pin 62 d returns to its position against vertex 64 d, again biased in that direction by the operation of spring 42.
  • Thus as may be seen, because of the lateral width occupied by channel guides 64, where the channels must be sufficiently sized to accept pin 62 d, and where pin 62 d must be sufficiently sized so as to be robust to allow longevity of the push button switch operation, it is advantageous to mount channel guides 64 or form channel guides 64 where there is available space on mounting plate 14. Because of the space occupied by the spike actuating mechanisms and spike guides 16, and keeping in mind that it is advantageous in most applications to which sole 10 will be put to maximize the number of spikes 36, the central corridor on heel portion 14 a may be relatively narrow especially for smaller sized soles 10, thus the relatively open space on waisted portion 14 c provides the available room on which to mount or form channel guides 64. Because the central portion of shifter frame 20, that is, sub frame 20 c, transfers the loads in compression and tension as the case may be along two parallel laterally spaced apart rigid stringers 20 j on opposite sides aperture 20 i and pin holder 62, the amount by which stringers 20 j are spaced apart governs the available space within which pin 62 d may be translated laterally when translating in channel 64 a.
  • The waisted portion 14 c of mounting plate 14 also provides for accommodating the arch of a typical piece of footwear which often dictates the shape of the concavity formed under the arch in the planform of sole 10. In alternative embodiments, if desired, mounting plate 14 may be formed with a slight rocker shape, that is, a slight upward curvature to provide a slightly rockered rigid base under which the resilient portion of sole 10 would be mounted. This may be employed in certain applications of sole 10 where a slightly rockered rigid shape for mounting plate 14 a is desirable rather than being planar shape. Thus a slight curvature might be introduced for example along the waisted portion 14 c while maintaining the heel and ball portions 14 a and 14 b respectively planer. In order to accommodate the translation of shifter frame 20 in such embodiments, sub frame 20 c may be provided with one or more pivotable joints for example formed in stringers 20 j either by the use of pins or by the use of pinned links such as links 54 for example. Thus because shifter frame 20 only has to translate a relatively short distance forwardly and rearwardly relative to mounting plate 14, and because the forward and rearward portions of shifter frame 20 are held by guides 56 flush down against the corresponding portions of mounting plate 14 while still allowing for the relative translation of shifter frame 20 flush over mounting plate 14, such a rocker shape in mounting plate 14, which may be rigid or in alternative embodiments slightly flexible, may be accommodated in alternative embodiments.
  • Although the structural form described herein of shifter frame 20 is not intended to be limiting, it has been found advantageous to provide the rigid U-shaped collars extending laterally from the longitudinal; back-bone of frame 20 and laterally from toe-shifter frame 52 so that for each spike guide 16 and the related spike actuating linkages on either side of each spike guide 16, a U-shape collar provides for simultaneous actuation of the knee-lever linkages on either side of each spike guide 16. In this fashion, the likelihood of jamming of the linkages is reduced as compared for example to actuating a linkage on only a single side of a spike guide 16. Again, using the U-shaped collar structures lends to the rugged longevity of the shifter frames and spike actuating mechanism, and provides for positive mechanical driving of each spike so as to extend each spike when desired and so as to retract each spike when desired without relying on a small light-weight resilient mechanism such as small springs mounted underneath the user's foot, so that in the present design a single very rugged spring 42 governs the force with which spikes 36 are retracted, the driving force provided by the user against button 38 providing the force to directly and mechanically extend spikes 36.
  • In a low-profile embodiment according to another aspect of the present invention, and as better seen commencing in FIG. 21, sole 100 has cavities or pockets 102 formed into the base of the sole, in one embodiment not intending to be limiting, formed into lugs 104 formed in the sole so that spike guides 116 mounted on a lower mounting plate 114 may protrude downwardly from lower mounting plate 114. This allows for the reduction of the upper elevation of spike guides 116, thereby allowing for the appearance of a lower profile sole 100 when viewed side-on.
  • Sole 100 which is advantageously made of resilient material so as to be flexible when formed as part of a shoe, boot, or other footwear and worn by a user, has a primary cavity 106 formed in and along substantially the entire length of the sole, sized to snugly fit therein the entire actuable spike assembly 108. Gaskets 110 mount snugly down into the base of pockets 102 so as to align spikes 112 with apertures 102 a in the bottom surfaces of pockets 102.
  • Top plate 118 is mounted down onto mounting plate 114 so as to sandwich a shifter plate 120 therebetween. Lower mounting plate 114, shifter plate 120, top plate 118, and spike actuation assemblies 122 mounted to plate 114, which cooperate with shifter plate 120 to actuate spikes 112 between their lowered and elevated positions, jointly form spike assemblies 108 as seen in FIG. 24. In one preferred embodiment, an overall actuable spike assembly 108 contains at least two separate spike assemblies, for instance a main spike assembly 108 a which resides under the heel, arch and ball-of-the-foot of a user, and a toe spike assembly 108 b which, in cooperation with main spike assembly 108 a, is positioned substantially under the toes of a user and is free to pivot relative to main spike assembly 108 a for example during bending of sole 100 while a user is walking wearing footwear containing the present invention.
  • Main spike assembly 108 a includes a waisted or narrowed section corresponding to the arch of the foot of a user. In particular, plates 114 and 118, and shifter plate 120 each have correspondingly narrowed sections between the heel and ball-of-the-foot sections of spike assembly 108 a.
  • As before, when spike assembly 108 is mounted into the sole button 38 is positioned at the aft end of the heel of sole 100. Button 38 is actuable by a user kicking or pushing the button against a hard surface so as to drive the button and a drive coupling or shaft 38 a in direction F against the return biasing force of a resilient return mechanism such as, by way of example, helical coil spring 42. As before, spring 42 may be mounted journalled over shaft 28 a. Button 38 is mounted by shaft 38 a to the aft end of shifter plate 120 so that when button 38 is driven in direction F, shifter plate 120 is driven in direction A longitudinally along substantially the center line of plates 114 and 118. Plates 114 and 118 are mounted to each other for example, without intending to be limiting, on raised lands on plate 114 in the front and aft sections and in the waisted section between the front and aft sections of main spike assembly 108 a by means of an upset 114 a formed lower mounting plate 114. Fasteners 118 a mount upset 114 a to the underside of plate 118 in the waisted portion of plate 118, and mount top plate 118 down onto the raised lands on mounting plate 114 in the fore and aft sections of assembly 108 a and in assembly 108 b. The plates 114 and 118 so mounted to each other form a tunnel therebetween, plate 118 providing a cover on top of a channel formed in plate 114. Narrow slide portion 120 a of shifter plate 120 snugly slides in the tunnel to act as a push/pull rod. Slide portion 120 a is supported and guided within, so as to snugly slide along the channel formed in upset 114 a, that is, in the tunnel between the plates 114 and 118. Slide portion 120 a links the spike actuation assemblies 122 in the heel or aft portion of spike assembly 108 a with the spike actuation assemblies 122 in the forward or ball-of-the-foot portion of spike assembly 108 a.
  • With the spike guides 116 recessed so as to protrude downwardly from the bottom of lower mounting plate 114, the geometry of each linkage assembly 124 in spike actuation assemblies 122 transmits the longitudinal driving motion of the shifter plate 120 into vertical, or substantially vertical translation of spikes 112 sliding up and down in the spike guides 116. As before, a plurality of linkage arms (124 a, 124 b, and 124 c) forming a knee-lever linkage mounted in parallel pairs, laterally spaced apart on either side of each spike guide 116 are arranged so that, with the spikes 112 in their extended (lowered) position, two of the linkage arms (124 b, 124 c) are substantially aligned along axis E as seen in FIG. 29 so that an upward force in direction D′ acting on the spikes is transmitted into spike guides 116 rather than into the shifter plate 120.
  • Again, shifter plate 120 and its corresponding linkage arm 124 a, is employed primarily to substantially maintain the alignment between linkage arms 124 b and 124 c so as to transmit the upward force from the spike to the spike guide along substantially axis E as seen in FIGS. 29 and 29 a rather than into the shifter plate where the force may otherwise cause the shifting mechanism to slow or bind or cause damage to the shift button release mechanism 48. Thus for example if a heavy user wearing footwear incorporating the spike actuation mechanism of the present invention is standing and the spikes are extended from beneath the soles of the footwear for traction, without the knee linkage of linkage arms 124 a, 124 b, and 124 c or other functionally equivalent structure the upward force on the spikes resulting from the user's weight would in part transfer upwardly into shifter plate 120, and shifter plate 120 may (1) then consequently be driven upwardly into frictional engagement upwardly against the underside of the top plate 118 resulting in friction which may make shifter plate 120 resistant to sliding and so may interfere with the operation of the retraction of the spikes as the return biasing force of spring 42 may not be sufficient to overcome the friction resisting the aft sliding of shifter plates 120; and, (2) be pushed backwards (opposite direction A) towards the heel and thereby place a load on the relatively delicate operation of the push button release mechanism 48 described above and located in this embodiment at the heel, thereby causing the switch track mechanism within release mechanism 48 to deform, possibly breaking the pin and toggle. The knee linkage thus protects the switch mechanism of release mechanism 48.
  • With spikes 112 in their elevated or retracted position, as shifter plate 120 is driven forward in direction A, laterally extending cross-members 126 mounted in, so as to extend laterally from, shifter plate 120, are also driven forward. Outer linkage arms 124 a, pivotally mounted on cross-members 126 are rotated downwardly in direction P thereby driving downward rotation of mid-linkage arms 124 b in direction Q about pins 128. Mid linkage arms 124 b are pivotally mounted at their upper ends on pins 128 and at their lower ends are pivotally mounted to arms 124 a by pins 129 a. Pins 128 are mounted in, so as to extend laterally across, the upper ends of spike guides 116. Inner linkage arms 124 c are pivotally mounted, at one end, to the lower ends of mid linkage arms 124 b by means of pins 129 b, and at their opposite ends to pins 130. Pins 130 are mounted to, so as to extend laterally from, spikes 112, and positioned approximately two-thirds of the way up the length of each spike. As before, each spike 112 is constrained for vertical translation being mounted within, so as to slide along vertical, or substantially vertical, elongate generally cylindrical hollow bores 116 a formed in spike guides 116.
  • With the spike guides 116 embedded substantially mid-way along their vertical length into the lower mounting plate 114 so that the spike guides protrude upwardly and downwardly from the lower mounting plate, the spike guides can thereby be, and are, more robustly supported to resist a force, for example in direction R, causing a bending moment imparted to spike guides 116 by spikes 112 when they are in their extended position. For example, with the spikes extended, when a user twists the user's foot while the spikes are engaged with the ground, such a motion will impart a torque to the spikes, and consequently to corresponding spike guides 116, tending to twist the spike guides relative to the lower mounting plate. Such a torque applied by the user to the spikes when in their extended position is resisted in one embodiment (FIG. 34) by gasket 110 mounted in the bottom of the corresponding pocket 102 in sole 100 so as to protrude the base of the gasket and in particular its hard shell housing 111 from apertures 102 a in the pockets.
  • In a preferred embodiment, each spike is notched with an annular groove 112 a such as seen in FIG. 29 a or a like mechanical arrangement to provide for shearing of the spike, for example, so as to shear flush with the bottom of sole 100 upon excessive sideways force for example in direction R being applied to the end of the spike. In a preferred embodiment each spike 112 has a replaceable tip 112 b, for example threadably mounted on threaded shaft 112 c (shown in dotted outline in FIG. 29 a) to the corresponding spike base 112 c 1 at a joint co-located with annular groove 112 a.
  • The use of top plate 118 which sandwiches shifter plate 120 between top plate 118 and lower mounting plate 114 also lends to the rigidity of the structure supporting the spike guides 116, for example, where lands 116 b onto which plate 118 is fastened form part or the top of spike guides 116 such a use of lands 116 b increases the structural resistance of spike guides 116 to torque applied to spikes 112 when in their extended position and provides further rigidity to resist upward force applied to the spikes in direction D′, for example, when a user walks on or jumps down onto hard ground with the spikes extended.
  • The separate spike actuation assemblies cooperate with each other for simultaneous actuation of spikes 112 from the bottom of sole 100. For example, assembly 108 a cooperates with assembly 108 b so that the shifter plate 120 in each assembly is simultaneously shifted forward (direction A) or rearwards by the use of a drive linkage extending between the assemblies which may be in one embodiment a hinge linkage 132, or in another embodiment, neither intending to be limiting, a rigid linear linkage member 134 mounted between adjacent shifter plates 120 at one or both ends of linkage member 134 by for example a ball joint 136 or other universal joint on the corresponding ends of the adjacent shifter plates. A universal joint embodiment permits three degrees of rotational freedom of motion and two degrees of lateral freedom of motion between assemblies 108 a and 108 b. Thus in the illustrated embodiment, the linkage member is pivotally mounted to the forward end of the shifter plate 120 within assembly 108 a, and is pivotally mounted at the other end of the linkage member to the aft end of the shifter plate 120 in the assembly 108 b. This then transmits the sliding motion of the shifter plate under the foot of the user forward from the ball-of-the-foot to the adjacent toe assembly 108 b irrespective of the orientation of the toe assembly 108 b relative to the main assembly 108 a. Thus even when the user has the sole 100 bent, for example, when the footwear is flexed as the user is walking or running, the pivotable mounting of assembly 108 b to assembly 108 a and the pivotal mounting of the linkage member (132, 134) between assemblies 108 a and 108 b accommodates the flexing of the footwear, both up and down and laterally in the universal joint or ball joint (that is, three degrees of motion embodiment), and may even provide for the extension or retraction of the spikes while the sole is non-planar, that is also while flexed.
  • In a preferred embodiment gaskets 110 have a hard shell of plastic or rubber or like material. Shell 110 a houses an internal soft rubber membrane 110 b for example that looks like a rubber washer. Shell 110 a protrudes though apertures 102 a in pockets 102 and contact the ground so as to provide durability. Shell 110 d fits closely to spike 112 to keep large particles out but is not intended to actually touch the spike because that may increase the friction. Tolerances may mean this is not always the case. Fine particles and water will be able to pass by the hard shell 110 a but will be blocked from entry into pockets 102 by the soft gasket 110 b.
  • In a preferred embodiment gaskets 110 threadably mount on threads 110 c onto corresponding downwardly extending threaded ends 116 b of spike guides 116.
  • As will be apparent to those skilled in the art in the light of the foregoing disclosure, many alterations and modifications are possible in the practice of this invention without departing from the spirit or scope thereof. Accordingly, the scope of the invention is to be construed in accordance with the substance defined by the following claims.

Claims (27)

    What is claimed is:
  1. 1. An apparatus for selectively extending and retracting spikes from the sole of a footwear article, the sole having a heel section, a center under-the-arch of the foot section, a ball-of-the-foot section, and a toe section extending consecutively in a longitudinal direction along the sole, wherein at least one section has pockets formed therein, and that section having a plurality of spike apertures through the corresponding pockets, the apparatus comprising:
    a first spike actuating assembly comprising a lower plate having heel, center and ball-of-the-foot portions sized to extend over so as to cover respectively the heel, center and ball-of-the-foot sections of the sole when said lower plate is mounted on the sole,
    a plurality of spike actuating linkage assemblies mounted recessed in said lower plate so as to extend above and beneath said lower plate, each spike actuating linkage assembly of said plurality of spike actuating linkage assemblies having a spike guide and a spike locatable within a corresponding bore in each said spike guide for alignment with one of the spike apertures,
    an elongate first slider plate translatably mounted flush on said lower plate substantially parallel to the longitudinal direction of the sole and being moveable between first and second positions, said first slider plate operable to actuate said plurality of spike actuating assemblies to thereby extend said spikes from said plurality of spike actuating assemblies at said first position and to retract said spikes at said second position;
    a top plate sandwiching said first slider plate between said top plate and said lower plate so as to permit sliding of said first slider plate relative to said top plate and lower plate, said top plate and said lower plate forming a rigid frame, each said spike guide also mounted to said top plate to collectively within said frame resist a bending moment applied to each said spike when extended downwardly from said lower plate;
    a cyclically alternating positioner mounted within said frame for moving said first slider plate between said first and second positions, said positioner having an actuating button adjacent said heel portion, wherein depressing said actuating button a first time causes said positioner to move said first slider plate to said first position and wherein depressing said actuating button a second time causes said positioner to move said first slider plate to said second position.
  2. 2. The apparatus of claim 1 further comprising:
    a second spike actuating assembly comprising a second lower plate and a second top plate forming a second rigid frame and sandwiching therebetween a second slider plate, said second spike actuating adjacent a front end of said first spike actuating assembly so as to cover the toe section of the sole when said first and second spike actuating assemblies are mounted on the sole, said second slider plate slidably mounted flush on said second lower plate, said second slider plate pivotally mounted to a front end of said first slider plate, at least one of said spike actuating assemblies mounted on said second plate, wherein when said first slider plate is moved between said first and second positions, said second slider plate is correspondingly simultaneously moved relative to said second lower plate and correspondingly actuates said spike actuating linkage assemblies on said second lower plate to simultaneously extend and retract corresponding said spikes therefrom.
  3. 3. The apparatus of claim 1 wherein said each spike actuating linkage assembly further comprises a knee-lever linkage pivotally mounted at a first end to each of said spike guides and at an opposite second end to said first slider plates, wherein said knee-lever linkage includes at least an upper link and a lower link pivotally mounted to one another at a mid-pivot position between said first and second ends of said knee-lever linkage, and wherein said mid-pivot position has a mid-point linkage pivotally mounted at substantially said mid-pivot position, and wherein said lower link is connected to said corresponding spike, and wherein when said first slider plate is in said first position so as to extend said corresponding spike said upper and lower links are aligned to transfer substantially linearly therealong a compressive force applied upwardly thereto, said upper and lower links collectively upwardly inclined when so aligned so as to transfer a substantial vector component of said compressive force acting on said corresponding spike to a corresponding said spike guide via said upper and lower links.
  4. 4. The apparatus of claim 1 wherein said center portion of said first plate is waisted when viewed in planform relative to a width of said heel and ball portions, and wherein a center sub-frame of said first slider plate is waisted so as to substantially conform in width when overlaid onto said center portion of said lower plate.
  5. 5. The apparatus of claim 4 wherein said positioner includes a cyclical actuator mounted both on said frame and said slide plate so as to cooperate therebetween to drive said first slider plate between said first and second positions relative to said frame, and wherein a drive member extends between said button and said cyclical actuator.
  6. 6. The apparatus of claims 1-5 wherein said plurality of spike actuating assemblies are mounted on said lower plate in spaced apart array so as to provide a longitudinally extending unobstructed center tunnel along said frame, and so as to provide longitudinal spacing between said plurality of spike actuating assemblies, and wherein said first slider plate includes a center back-bone frame extending substantially completely along said heel, center and ball portions so as to freely slide along said center corridor of said lower plate, and wherein said first slider plate includes, said laterally extending arms from said center back-bone frame extending cooperating with said plurality of spike actuating assemblies so as to actuate said spikes.
  7. 7. The apparatus of claim 6 wherein said lower plate further comprises guide members cooperating with said first slider plate to constrain sliding translation of said first slider plate between said first and second positions, and wherein said top plate constrains said translation to flush translation substantially flush along said lower plate.
  8. 8. The apparatus of claim 7 wherein said flush translation is without vertical translation of said first slider plate relative to said lower plate.
  9. 9. The apparatus of claim 6 wherein said actuating button comprises a plunger button acting against a return biasing spring.
  10. 10. The apparatus of claim 9 wherein said plunger button is cantilevered from a heel portion of said sole in a substantially horizontal plane.
  11. 11. The apparatus of claim 6 wherein a portion of said sole covers said actuating button.
  12. 12. The apparatus of claim 6 wherein said actuating button is contained within said sole.
  13. 13. The apparatus of claim 6 wherein said positioner is cyclically actuated by single consecutive pushes of said button applied to rear of the sole against a return biasing force of a single resilient biasing spring.
  14. 14. The apparatus of claim 13 wherein said spring acts against and between said frame and said button.
  15. 15. The apparatus of claim 14 wherein said spring is a helically coiled spring.
  16. 16. The apparatus of claim 15 further comprising a rod extending from said button along said heel portion to said center portion of said lower plate, and wherein said rod is journalled through said helically coiled spring.
  17. 17. The apparatus of claim 16 wherein said rod is substantially parallel to said first plate and substantially longitudinally aligned.
  18. 18. The apparatus of claim 1 wherein a third link in said knee-lever linkage is pivotally connected between said mid-pivot and an upper end of said corresponding spike.
  19. 19. The apparatus of claim 18 wherein said upper link is mounted to said spike guides at an upper end of said spike guides, and wherein said lower link is mounted to said first slider plate.
  20. 20. The apparatus of claim 19 wherein said spike guides define a substantially vertical silo for said corresponding spike to slide vertically therein as said mid-pivot is lowered or elevated upon translation of said first slider plate between said first and second positions respectively.
  21. 21. The apparatus of claim 1 wherein said each spike includes a shear point whereby when said bending moment is applied above a shear threshold, said each spike shears.
  22. 22. The apparatus of claim 21 wherein said shear point is substantially at a lowermost end of said spike guides when said spikes are extended therefrom.
  23. 23. The apparatus of claim 1 wherein said each spike includes a removable tip.
  24. 24. The apparatus of claim 23 wherein said each spike includes a base portion and wherein said removable tip is threadably coupled to said base portion.
  25. 25. The apparatus of claim 1 further comprising a gasket assembly mounted to a lowermost end of each said spike guide, said gasket assembly providing a lowermost wear surface and providing for screening of foreign matter from ingress into said spike guides.
  26. 26. The apparatus of claim 25 wherein said gasket assembly includes a rigid outer shell and a resilient gasket mounted therein, said shell and said gasket each having an aperture therein aligned with said each spike guide for journaling of a corresponding said spike therethrough.
  27. 27. The apparatus of claim 26 wherein said shell provides a coarse wiper and said gasket provides a fine wiper of said spikes.
US13138974 2009-05-07 2010-01-19 Footwear with retractable spikes Abandoned US20120042543A1 (en)

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US6125556A (en) * 1997-06-20 2000-10-03 Peckler; Stephen N. Golf shoe with high liquid pressure spike ejection
US6256907B1 (en) * 1998-04-14 2001-07-10 Retractable, Inc. Athletic shoe with retractable spikes
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US20110162235A1 (en) * 2009-05-07 2011-07-07 Darrell Patrick Bachmann Footwear with retractable spikes

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US20150305445A1 (en) 2015-10-29 application
CA2709028A1 (en) 2010-11-07 application
US9913512B2 (en) 2018-03-13 grant
WO2010127430A1 (en) 2010-11-11 application
EP2427076A1 (en) 2012-03-14 application
CA2761197A1 (en) 2010-11-11 application
US20110162235A1 (en) 2011-07-07 application
WO2010127428A1 (en) 2010-11-11 application

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Owner name: KICKSPIKE ENTERPRISES LTD., CANADA

Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:BACHMANN, DARRELL PATRICK;KLEIN, PETER;KOOP, AMANDA MICHELLE;SIGNING DATES FROM 20100115 TO 20100118;REEL/FRAME:032738/0811