BACKGROUND1. Field of the Invention[0002]
This invention pertains to footwear, and particularly to friction soles for footwear used in sporting and working environments. It provides a detachable traction element which may be attached to shoes or boots to provide friction characteristics matched to changing circumstances of use.[0003]
2. State of the Art[0004]
The traction and noise generating characteristics of the sole components of footwear are of particular significance in certain special purpose applications. The soles of shoes and boots used for hunting, fishing, hiking and other outdoor pursuits, for example, are conventionally constructed of materials regarded as generally suitable for their intended environments of use. Those materials are often not ideal for all use conditions, however. Similar problems are presented by the soles of footwear used in certain occupations, notably by roofers, warehousemen, construction workers, members of Special Forces or SWAT teams, and others confronted by changing or otherwise challenging use conditions. For instance, it would be an improvement if footwear worn by Special Forces teams could be quickly modified to dampen noise generated while running on concrete, to reduce likelihood of alerting a survailance target. In a similar application, hunters would benefit from a device operable to reduce boot-generated noise during a stalking attempt.[0005]
U.S. Pat. Nos. 6,023,859; 5,996,252; 5,799,418; 5,600,902; 5,024,008; 4,924,608; and 3,903,620 all relate generally to expedients for enhancing the traction or noise generating characteristics of specialized footwear. The disclosures of these patents are incorporated by reference in this disclosure for their respective teachings concerning the construction of footwear, the special needs of certain use applications, and the materials generally available to innovators in the field of footwear design. It is known to apply supplemental soles to the bottom contact surfaces of boots. Such supplemental soles are intended to improve the traction characteristics of the boots for use in specific circumstances. Relatively thin and stiff felt soles are sometimes glued to the bottoms of “rubber” hip boots or waders, for example. As used herein, the term “rubber” is intended to include any material having properties similar to those of natural rubber, including synthetic rubbers and other materials regarded by the consumer as being rubber or rubber-like.[0006]
Available devices operable to change the characteristics of commercially available footwear suffer from certain limitations. The aformentioned glue-on felt wader soles provide a generally stiff felt sole to provide increased wear and longer life of the sole. However, the footprint of the felt sole is in conformance with the size of the boot sole, and therefore provides a minimal area for developing traction. The hard felt sole geerally fails to conform adequately to certain rock surfaces to generate a desired amount of traction. Devices constructed according to the disclosure of the '418 patent are known detrimentally to increase the temperature of a foot inside a boot on which such device is mounted, can actually impair traction by providing a slippery fur traction surface, and even fail to stay in an installed position on a boot that is placed into aggressive service, such as in climbing a hill.[0007]
BRIEF SUMMARY OF THE INVENTIONThe present invention provides a novel appliance for modifying the traction characteristics of footwear. The appliance of this invention is particularly useful in connection with hunting boots, hiking boots, “rubber” overshoes and waders of the type used by fishermen, hunters or others, while wading streams or traversing other submerged areas. Certain embodiments of the invention can reduce noise made while stalking prey. It is equally useful with shoes or footwear used in contexts other than outdoor sports, such as to reduce noise generated by heel strikes when running on concrete.[0008]
The appliance of this invention is generally configured as a sole element with suitable connection mechanisms to firmly and reliably, although temporarily, fix the sole element against the normal traction surface of footwear. The traction and noise generating characteristics of the thus-modified footwear thereby become those of the sole element. The characteristics contributed by the removable sole will be dependant upon several factors, including the physical properties of the materials of construction of the sole and its dimensions.[0009]
Various materials of construction are within contemplation, and proper selection depends, in part, upon the particular application of interest. In the case of hip boots or waders, a relatively soft and thick felt material is presently preferred to improve over even commercially available waders having felt soles. “Softer” and/or thicker materials are currently preferred for traction elements attached to waders or hip boots, because they provide improved traction on submerged rocky surfaces. “Dry land” applications may also benefit from a more thick and soft traction element, although thinner and stiffer soles are operable in certain cases.[0010]
Ideally, the traction element provides a larger footprint than is provided by the original contact surface of the footwear to which the traction element is attached. The thus-enlarged contact surface provides increased traction and stability.[0011]
The traction element may be held against the bottom, or contact surface of the original sole of the original footwear by any convenient system of straps, laces, elastic bands and/or comparable flexible strands. It is important that the attachment system hold the traction element against undue movement in any transverse direction. The term “transverse” is intended to include any direction generally parallel the bottom of the original sole.[0012]
Presently preferred coupling arrangements include a forward component, comprising flexible straps anchored to the top of the traction element in a pattern arranged to enclose the toe portion of the foot enclosure of a boot or shoe. A forward most portion of this component (usually, a single strap) firmly engages the forward most portion of the foot enclosure. A rear component is similarly constructed and arranged to capture the heel of the foot enclosure. This rear component preferably includes a flexible link, connecting an ankle strap to the heel-capturing elements. One flexible link can be constructed as a “crow's foot” operable to resist lateral motion of the footwear's heel. When the ankle strap is positioned around the ankle portion of a foot enclosure, such as a boot, or even of the ankle of the user, forward movement of the foot enclosure with respect to the traction element is inhibited.[0013]
Straps, or structure of a retainer system, may incorporate various mechanisms for making an adjustment in length to retain the traction element in engagement with a foot enclosure, such as a boot or wader. For example, an ankle strap may pass through an aperture to double back on itself to be secured by a hook and loop closure system. One operable hook-and-loop closure system that is commercially available is commonly designated Velcro™. Buckles, including quick-release buckles, may also be utilized in an adjustable retainer system.[0014]
Various modifications can be incorporated into the invention to provide special characteristics. For example, scent pads may be attached to or mounted within the traction element for hunting applications. Scent may even be applied directly, such as by spraying or pouring, to the traction element in certain cases. Cleats or spikes may be mounted to protrude from the bottom of the traction element. It is practical to provide the appliances of this invention in coordinated sets, such as varying in thickness or some other characteristic, thereby enabling a user to select traction characteristics appropriate for changing conditions of use.[0015]
One embodiment of the invention can be described, in general terms, as an appliance for modifying the traction characteristics of footwear. Such an appliance typically includes a traction element, or oversole, which can be constructed of felt material. Oversoles can be characterized as prismatic members, typically providing a larger footprint than the footwear. An attachment system is provided releasably to anchor the traction element to the bottom surface of footwear. Desirably, the attachment system is constructed and arranged to restrain the traction element from undue transverse movement with respect to the bottom surface of the footwear.[0016]
A currently preferred attachment system includes a forward harness system arranged to interface with a toe portion of the footwear, and a rear harness system arranged to interface with a rear portion of the footwear. The forward and rear harness systems can be mechanically fastened, adhesively bonded, or both, to the traction element. In one preferred embodiment, a forward harness system includes a plurality of forward straps operably arranged to adjust for a size of inserted footwear, and can adjust to embrace a toe portion of the footwear between the forward straps and a top surface of the traction element. A preferred rear harness system includes a spacer element disposed between the traction element and an adjustable length restriction element that can adjust to a size of an ankle area. The spacer element can also serve to resist lateral heel motion of the wearer's boot with respect to the traction element. The restriction element additionally can be arranged operably to resist accidental extraction of a user's foot from inside the footwear.[0017]
Some traction elements, or oversoles, can include a plurality of traction spikes to augment traction over a variety of terrain. Certain traction enhancing appliances include structure arranged to carry a deliberately applied masking scent. Sometimes the traction element is employed directly to carry the scent. In any case, a traction element is typically constructed of a material that is softer, on an applicable hardness scale such as Vickers, Brinell, Rockwell, Mohs, Durometer, or Shore, compared to material forming the sole of the footwear.[0018]
The invention is particularly useful when embodied as an oversole for use in combination with a waterproof boot, such as hip boots, or waist-high or chest-high waders. In such case, the oversole augments traction capability of the waterproof boot's sole. The traction-modifying oversole is simply associated with the sole, typically by way of an adjustable strap system, to resist transverse motion of the oversole relative to a traction surface the sole.[0019]
One exemplary strap system useful in application to waders includes a forward harness system arranged to hold a toe portion of the boot, and a rear harness system arranged to hold a rear portion of the boot. A currently preferred forward harness system includes a first strap disposed near a first edge of the oversole, a second strap disposed near a second edge of the oversole, and means to adjust an enclosing space, in which to receive the toe portion, defined in-part by the first strap, the second strap, and a portion of the oversole. A preferred rear harness system includes a flexible spacer element disposed between the oversole and an adjustable length restriction element operable to encircle an ankle area of the boot. The restriction element may also operate to resist accidental extraction of a user's foot from inside the waterproof boot. In particular, such a restriction element is particularly beneficial in use with rubber hip boots. Desirably, the oversole includes a material that is deformable to conform, at least in-part, to a shape of a rock on which a wearer of the waterproof boot may stand. Operable oversoles can be formed as prismatic members removed from a thickness of a nonwoven material, such as felt.[0020]