US20090307926A1 - Adjustable midsole for footwear - Google Patents
Adjustable midsole for footwear Download PDFInfo
- Publication number
- US20090307926A1 US20090307926A1 US12/140,858 US14085808A US2009307926A1 US 20090307926 A1 US20090307926 A1 US 20090307926A1 US 14085808 A US14085808 A US 14085808A US 2009307926 A1 US2009307926 A1 US 2009307926A1
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- United States
- Prior art keywords
- capsule
- midsole
- gas
- pump
- sealable valve
- 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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Images
Classifications
-
- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B7/00—Footwear with health or hygienic arrangements
- A43B7/14—Footwear with health or hygienic arrangements with foot-supporting parts
- A43B7/28—Adapting the inner sole or the side of the upper of the shoe to the sole of the foot
-
- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B13/00—Soles; Sole-and-heel integral units
- A43B13/02—Soles; Sole-and-heel integral units characterised by the material
- A43B13/12—Soles with several layers of different materials
- A43B13/125—Soles with several layers of different materials characterised by the midsole or middle layer
Abstract
Improved adjustable midsole for footwear, with the midsole comprising an airtight, evacuable capsule containing granules and air, whereby the midsole is moldable to the shape of the wearer's foot for improved support and comfort, with the midsole retaining said shape through evacuation of air from the capsule. The improved midsole further comprises sipes such as slits or channels integrated into the midsole to improve flexibility.
Description
- 1. Technical Field
- The present invention relates generally to the footwear industry. More specifically, the invention is directed to an improved adjustable midsole for use with articles of footwear whereby said improved midsole is conformable to the wearer's foot and thereafter may be reconformed as many times as desired.
- 2. Description of Prior Art
- Footwear, and shoes in particular, in general terms are designed to provide the wearer with a combination of fit, cushioning, protection, and support appropriate to specific pursuits. The prior art describes shoes designed to mimic the support, stability, and cushioning characteristics of the human foot. Shoes have incorporated sipes, pressure-transmitting medium compartments, and inelastic, flexible fibers. Many shoes also incorporate a midsole component interposed between the foot bed and outsole. Midsoles have undergone an evolution in the past century from simple rubber material to more sophisticated modern polymers incorporating a variety of cushioning and so-called “motion-control” features. These elements, mostly found in athletic shoes, have been developed with varying degrees of actual measurable clinical effects. A variety of methods have been utilized in isolation and in combination to achieve these effects, including the use of open and closed cell foams, air, gels, springs, plastic trusses, and carbon fiber inlays.
- In addition to components directly integrated with the footwear, adjunctive methods of providing cushioning and support to the foot are also known in the art, including off-the-shelf arch supports and custom-molded foot orthotics. These devices are placed inside the shoe and are in direct contact with the wearer's foot. The obvious benefit of foot orthotics is the custom fit provided to the wearer. The remediation of biomechanical abnormalities of the foot is another potential benefit.
- One shortfall common to commercially available footwear is in the inability to readjust the fit to the wearer's foot anatomy. Current models provide a static shape midsole or arch support only. Similarly, custom-molded foot orthotics are typically shaped to the wearer's foot and then fixed to that customized fit, either through the application of heat or a chemical hardening agent. Once fixed, however, these orthotics are not reconformable. It would be highly desirable to have the ability to periodically readjust the fit of the shoe or insole to suit the wearer at any given time or during any given activity. The present invention overcomes this defect by providing a reconformable midsole through the use of an evacuable container to provide a vacuum cushion effect. The use of evacuable containers for shape retention is well known. These are most commonly used in hospital operating rooms as patient positioning devices. These devices typically comprise a flexible airtight sack containing small, elastically deformable granules which compress into a substantially rigid mass when air is removed from the sack. Before air is evacuated the granules fluidly move about within the sack so that the device can be formed to the desired shape. When air is removed from the sack, atmospheric pressure forces the granules together into a solid mass, thereby retaining the sack in the desired shape, customized to the anatomy of a patient placed thereon. Introducing air back into the sack returns the device to its initial condition, ready to be reshaped.
- The prior art reveals several devices incorporating a vacuum cushion effect in evacuable devices associated with the foot and ankle. One device describes using evacuable cushions about the foot and ankle to immobilize the wearer's anatomy after injury such as a fracture or surgery. While this device allows for a customized, reconformable fit, it is intended to immobilize the foot and ankle and is thus inappropriate for footwear designed for ordinary walking or running. Another device teaches an apparatus and method of use incorporating a bi-layered, evacuable foot bed designed to relieve pressure beneath certain anatomic locations on the plantar surface of the foot. This device is intended for use in diabetic patients with foot ulcerations. While this device is intended for footwear It does not incorporate means for enabling the natural flexion of the foot as seen during normal gait. That is, once the foot bed is conformed to the anatomy of the wearer's foot it becomes rigid. This configuration may be appropriate for standing, but it impedes normal movement.
- The present invention overcomes this problems of conformable midsoles found in the prior art through the incorporation of sipes in a variety of key locations enabling a more natural gait pattern. As more fully described below, the position of the sipes permits flexing of the midsole during walking or running while the foot is completely supported by the customized shape of the device.
- It is therefore an objective of the present invention to provide an improved adjustable midsole which may be easily conformed to the shape of the underside of the wearer's foot and which thereafter retains its shape as long as desired.
- It is a further objective of the present invention to provide an improved adjustable midsole which is easily reshaped as often as desired.
- It is yet a further objective of the present invention to provide an improved adjustable midsole which utilizes a vacuum cushion effect in order to provide a customized fit.
- It is yet a further objective of the present invention to provide an improved adjustable midsole which flexes to accommodate the natural biomechanics of the wearer's foot permitting a natural gait pattern during walking, running, or other like activities.
- It is yet a further objective of the present invention to provide an improved adjustable midsole which incorporates one or more sipes at specific locations thereby permitting a natural gait pattern during walking, running, or other like activities.
- It is yet a further objective of the present invention to optionally provide an improved adjustable midsole which can be removably inserted into footwear with the need for special tools.
- It is yet a further objective of the present invention to optionally provide an improved adjustable midsole which can be integrated into and made a permanent part of footwear.
- Other objectives of this invention will be evident from the following disclosure.
- In accordance with the invention, the non-adjustable conformable midsole problem is solved by providing a malleable midsole which conforms to the shape of the underside of the human foot and then retains said shape for as long as desired, while also providing a simple means for easily and readily changing the configuration of the midsole to accommodate an infinite number of different foot shapes. The midsole further provides flexibility such that the midsole both retains its desired shape as well as flexes to accommodate the acts of walking, running, jumping, and the like. Such combination of midsole conformability and flexibility solves the problems of the prior art whereby a midsole was either conformable only a single time or, if adjustable, was inflexible, making it impractical for ordinary footwear use. The conformity of the midsole to the wearer's foot and the retention of this shape provides the wearer with an excellent fit. The adjustability of the midsole's shape allows it to adapt to any changes in the shape of the wearer's foot or to accommodate different therapeutic strategies.
- The improved midsole comprises an evacuable, flexible, airtight capsule containing a plurality of granules. The capsule is rendered malleable by introducing a quantity of gas, typically atmospheric air, into it. The midsole is adapted to conform to the sole of a human foot by the following process: the capsule is unsealed and a small quantity of gas is introduced into the capsule; a human foot is placed onto the capsule and downward pressure is applied, thereby causing the malleable capsule to conform to the sole of the foot; substantially all of the gas is evacuated from the capsule, thus causing the granules within the capsule to form into a rigid structure having substantially the same shape as the sole of the foot and further causing the capsule to be retained in the desired shape; and the capsule is sealed to prevent further introduction of gas into the capsule. At such time as the shape of the midsole is desired to be changed, gas is reintroduced into the capsule thereby rendering it malleable again, and the process is repeated.
- After the midsole has been formed into its desired shape, it retains partial flexibility by the use of one or more sipes integrated into the capsule. The use of sipes, which may be slits, channels, or flattened areas in the midsole, or any other structure allowing the midsole to flex, provides the midsole with the necessary flexibility to permit the dorsiflexion of the metatarsophalangeal joints of the human foot in the act of walking or running, thus making the midsole practical for use with ordinary footwear.
- In one embodiment the gas is evacuated from the capsule by a removable hand pump. In another embodiment a pump may be used to introduce gas into the capsule. In yet another embodiment the pump may be integrated with and made part of the midsole. Other means for introducing gas into and evacuation gas from the capsule are also anticipated, for example powered air compressors or suction devices. A sealable valve may be used to control the introduction and evacuation of gas into and out of the capsule.
- The improved midsole may be removably used in existing footwear, much like ordinary insoles, or it may be integrated with and made a permanent part of the footwear.
- Other features and advantages of the invention are described below.
-
FIG. 1 is a top view of the improved midsole of the present invention depicting the basic inventive elements. -
FIG. 2 is a top view of the improved midsole of the present invention depicting an alternate embodiment of the present invention. -
FIG. 3 is a perspective view of the improved midsole of the present invention. -
FIG. 4 is a perspective view of the improved midsole of the present invention. -
FIG. 5 is a perspective view of the improved midsole of the present invention in use with a human foot. - The present invention contemplates an improved
adjustable midsole 10 for use with footwear, such as shoes, boots, sandals, sneakers, and the like. Themidsole 10 is conformable to the underside of ahuman foot 5, thereby providing greater support and comfort than traditional midsoles. SeeFIG. 5 . Moreover, themidsole 10 is infinitely adjustable, so that as the shape of the wearer'sfoot 5 changes (either through injury or disease or just as a factor of aging), or as therapeutic needs require, themidsole 10 can be readjusted to provide a proper fit. - The
improved midsole 10 is comprised of acapsule 100, one ormore sipes 200, a plurality ofgranules 300, and means for introducing gas into the capsule 400, evacuating gas from the capsule 500, and sealing and unsealing the capsule 600. SeeFIG. 1 . Themidsole 10 is divided into aforefoot portion 12, amidfoot portion 14, and aheel portion 16, with theforefoot portion 12 located at the forward end of themidsole 10, theheel portion 16 located at the rearward end of themidsole 10, and themidfoot portion 14 located between theforefoot portion 12 and theheel portion 16 of themidsole 10. SeeFIG. 1 . - The
capsule 100 of themidsole 10 is fashioned of a sturdy, flexible material. This can be polyvinyl chloride, polyurethane, natural or synthetic rubber, or any other material that exhibits like characteristics. The basic shape of thecapsule 100 is roughly that of the perimeter of the sole of ahuman foot 5, with awider forefoot portion 12, anarrower midfoot portion 14, and aheel portion 16 slightly wider than themidfoot portion 14 but narrower than theforefoot portion 12. SeeFIG. 1 . Thecapsule 100 is sealable, such that when it is unsealed a quantity of gas (typically atmospheric air) may be introduced therein or evacuated therefrom, and when it is sealed it becomes airtight. - The
capsule 100 is comprised of at least two sub-capsules 110. SeeFIG. 1 . Each sub-capsule 110 is adapted to be formed and fixed into an appropriate shape to conform to the underside of afoot 5, as described above. Once fixed in shape, each sub-capsule 110 is substantially rigid, with minimal internal deformity. - Each
sipe 200 of theimproved midsole 10 is integrated with thecapsule 100 and is interposed between a pair ofsub-capsules 100. SeeFIG. 1 . Thesipe 200 may be a slit, a channel, or a flattened area formed into thecapsule 100. Its purpose it to increase the flexibility of thecapsule 100 once themidsole 10 has been formed and its shape fixed. In one embodiment thesipe 200 is formed by bonding a portion of the upper surface of thecapsule 100 to a portion of the lower surface of thecapsule 100. This bonding may be achieved by any means known in the art, such as by use of an adhesive, or by heat bonding, or by other appropriate means. In another embodiment thesipe 200 may be formed into theouter surface 130 of thecapsule 100. Other possible configurations of thesipes 200 are also contemplated by the present invention. - The
improved midsole 10 may have one ormore sipes 200 which are substantially linear. SeeFIG. 3 . In another embodiment one or more of thesipes 200 may be substantially curved. SeeFIG. 1 . In yet another embodiment there may be a mix of substantially linear and substantiallycurved sipes 200 integrated into thecapsule 100. SeeFIG. 2 . The substantiallylinear sipes 200 may be oriented at an optimal angle to the longitudinal axis of themidsole 10 to ensure appropriate flexing. This angle may be between sixty and ninety degrees to the longitudinal axis (e.g., between zero and thirty degrees to the transverse axis of the midsole 10). The configuration of thesipes 200 may also follow the metatarsal parabola wherein an arc may be described in a pattern over the metatarsal heads with the second metatarsal being the longest, the first metatarsal the second longest and metatarsals three, four, and five progressively shorter from medial to lateral. The choice of the specific configuration and orientation of theindividual sipes 200 in any givenmidsole 10 is based on well-known properties ofsipes 200 and is left to the individual. - In its most basic configuration the
improved midsole 10 will comprise acapsule 100 with a single pair ofsub-capsules 110, separated by one ormore sipes 200. One of the sub-capsules 110 will be located in theforefoot portion 12 of themidsole 10 and the other will be located in themidfoot portion 14 andheel portions 16 of themidsole 10, with asipe 200 located at the junction of theforefoot portion 12 and themidfoot portion 14 of themidsole 10. During use themidsole 10 flexes along thesipe 200 such that the twosub-capsules 110 angulate in relation to each other. SeeFIG. 4 . In other configurations there may beseveral sipes 200 interposed between the two sub-capsules 110. In still other configurations there may bemultiple sub-capsules 110, whereby one ormore sipes 200 are interposed between each pair ofadjacent sub-capsules 110. In such configurations, during use themidsole 10 flexes along themultiple sipes 200 such that thesub-capsules 110 angulate in relation to theother sub-capsules 110. - For each sub-capsule 110 there are one or
more communications 120 with at least oneother sub-capsule 110. SeeFIG. 1 . Eachcommunication 120 is a gas permeable passageway connecting a pair ofadjacent sub-capsules 110. As such, thecapsule 100 may have a single entry/exit point for the introduction and evacuation of gas, and gas entering that single entry/exit point can reach every sub-capsule 110 through the one ormore communications 120. In other embodiments, thecapsule 100 may have multiple entry/exit points for the introduction and evacuation of gas, or entry point(s) independent from exit point(s). Similarly, gas can be evacuated from every sub-capsule 110 through the one ormore communications 120 and out from thecapsule 100 through the single entry/exit point. In one embodiment a pair ofcommunications 120 is located at opposite ends of asipe 200 separating a pair ofadjacent sub-capsules 110. SeeFIG. 2 . Gas may move between the sub-capsules 110 around the ends of thesipe 200 through the pair ofcommunications 120. In another embodiment asingle communication 120 is located at one end of thesipe 200, with gas moving between the sub-capsules 110 through thatsingle communication 120. In yet another embodiment one ormore communications 120 may be integrated with thesipe 200, such that gas may move betweenadjacent sub-capsules 110 by passing through thesipe 200 itself. Each of thecommunications 120 is sized smaller than the smallest granule such thatgranules 300 may not pass into or through thecommunication 120. - The plurality of
granules 300 are located within thesub-capsules 110 of thecapsule 100. SeeFIG. 3 . Thegranules 300 are comprised of any light weight, deformable material, such as synthetic or natural rubber, EVA (ethylene vinyl acetate), an expanded plastic material such as expanded polystyrene, polyethylene, or the like. Thegranules 300 may be of a uniform, substantially spherical shape or may be irregularly shaped, though they should be substantially similar in size to each other, with thelargest granules 300 being not more than five times larger than thesmallest granules 300. Thegranules 300 should be relatively small, not exceeding 5 millimeters in diameter, and more typically being between 0.1 and 1 millimeter in diameter. Because the one ormore communications 120 between the sub-capsules 110 do not permit the passage ofgranules 300, thegranules 300 are kept within theirsub-capsules 110, ensuring an even distribution ofgranules 300 throughout thecapsule 100. - Within the sub-capsules 110, the
granules 300 move amongst each other in a fluid relationship, allowing thecapsule 100 to conform to the desired shape. When gas is evacuated from thecapsule 100, thegranules 300 become tightly packed and compressed against each other, becoming immobilized in their relative positions to each other, thereby resulting in thecapsule 100 retaining its desired shape. SeeFIG. 5 . In one embodiment a mild adhesive is admixed with thegranules 300. The adhesive may be any type of non-hardening adhesive provided it does not prevent fluid movement of thegranules 300 when themidsole 10 is being shaped. Use of the adhesive facilitates immobilizing thegranules 300, improving the ability of thecapsule 100 to retain its desired shape after gas is evacuated from it. However, because the adhesive is non-hardening, themidsole 10 may be reconfigured with the introduction of gas into thecapsule 100, as described above. - The present invention contemplates various means for introducing gas into the capsule 400, evacuating gas from the capsule 500, and sealing and unsealing the capsule 600 to either prevent or allow either the introduction of gas into the capsule or the evacuation of gas from the
capsule 100. In one embodiment, the means for introducing gas into the capsule 400 comprises a pump 410. SeeFIG. 1 . The pump 410 may be a hand pump or a foot pump. In a preferred embodiment the pump 410 has a nozzle which is inserted into thecapsule 100 when gas is being introduced, and then removed when the process is complete. In another embodiment the pump 410 has a threaded end which is threaded onto a mating thread integrated with thecapsule 100 during use. In yet another embodiment the pump 410 is integrated with thecapsule 100 and made a permanent part thereof. SeeFIG. 3 . In such a configuration the pump 410 may include a bulb and hose, where one end of the hose is integrated with thecapsule 100 and the bulb is attached to the opposite end of the hose. Squeezing the bulb forces air through the hose and into thecapsule 100. In yet another embodiment the pump 410 may be a removable powered air compressor. - Similarly, the means for evacuating gas from the capsule 500 may comprise a pump 510. See
FIG. 1 . The pump 510 may be a hand pump or a foot pump. In a preferred embodiment the pump 510 has a nozzle which is inserted into thecapsule 100 when gas is being evacuated, and then removed when the process is complete. In another embodiment the pump 510 has a threaded end which is threaded onto a mating thread integrated with thecapsule 100 during use. In yet another embodiment the pump 510 is integrated with thecapsule 100 and made a permanent part thereof. SeeFIG. 3 . In such a configuration the pump 510 may include a bulb and hose, where one end of the hose is integrated with thecapsule 100 and the bulb is attached to the opposite end of the hose. Squeezing the bulb draws air through the hose and out of thecapsule 100. In yet another embodiment the pump 510 may be a removable powered suction device. - In yet another embodiment the same pump 410,510 may be used to both introduce gas into the
capsule 100 and to evacuate gas from thecapsule 100. SeeFIG. 3 . Such a pump 410,510 may have a nozzle to be inserted into thecapsule 100 during use, or may have threads for mated engagement with thecapsule 100, or may be integrated and made a permanent part of thecapsule 100. Such a pump 410,510 comprises a valve or valves which control the movement of gas, either out of the pump 410,510 or into the pump 410,510, to achieve both the introduction and evacuation of gas functions. - In one embodiment the means for sealing and unsealing the capsule 600 to either prevent or allow either the introduction of gas into the capsule or the evacuation of gas from the
capsule 100 comprises a sealable valve 620. SeeFIG. 1 . The sealable valve 620 is integrated and made a permanent part of with thecapsule 100. In another embodiment the sealable valve 620 is positioned flush with theouter surface 130 of thecapsule 100. The pumps described above may be inserted into the unsealed sealable valve 620 to force gas into thecapsule 100 or to draw gas out of thecapsule 100. When the pump is removed the sealable valve 620 is sealed to prevent further movement of gas into or out of thecapsule 100. In one embodiment the means for introducing gas into the capsule 400 comprises the sealable valve 420 itself. SeeFIG. 2 . Upon unsealing the sealable valve 420, gas moves through the sealable valve 420 and into thecapsule 100 by means of air pressure differentials. With this embodiment a one-way pump 510 may be used solely to evacuate gas from thecapsule 100. In yet another embodiment the means for sealing and unsealing the capsule 600 to either prevent or allow either the introduction of gas into the capsule or the evacuation of gas from thecapsule 100 comprises a pump 610 integrated with and made a permanent part of thecapsule 100, as described above. Such a pump 610 comprises a valve or valves which control the movement of gas, both allowing movement and preventing movement of gas. The pump 610 may be a multi-function pump, adapted to both introduce and evacuate gas, as described above, or it may be a single function pump adapted solely for evacuating gas. If a single function evacuation pump is used there is also a need for a separate means for introducing gas into the capsule 400, such as a separate sealable valve 420, as described above. - In one embodiment the
midsole 10 is suitably adapted to be easily inserted into and removed from an article of footwear without the use of tools. In this embodiment themidsole 10 is used much like an ordinary insole. This permits an ordinary article of footwear to be retrofitted with the functionality of theimproved midsole 10. It also allows themidsole 10 to be alternated among different articles of footwear so that expense is kept to a minimum. - In another embodiment the
midsole 10 is integrated with and made a permanent part of an article of footwear. In this embodiment themidsole 10 is added to the article of footwear during the manufacturing process. While this limits the ability to use themidsole 10 with different articles of footwear, it allows for a more custom fit with the article of footwear. - Those skilled in the art will perceive improvements, changes and modifications in the invention. Such improvements, changes and modifications within the skill of the art are intended to be covered by the claims set forth herein, and that all matter contained in the accompanying specification shall be interpreted as illustrative only and not in a limiting sense.
Claims (20)
1. An improved adjustable midsole for use with footwear, said midsole comprising
a capsule, said capsule being fashioned of a sturdy, flexible material, said capsule suitably adapted to allow a gas to be introduced therein and evacuated therefrom, said capsule comprised of at least two sub-capsules, each said sub-capsule having one or more communications with at least one other sub-capsule;
one or more sipes integrated with the capsule, each said sipe interposed between a pair of sub-capsules, such that the capsule may be flexed along each said sipe;
a plurality of granules, said granules being located within the sub-capsules of the capsule;
a means for introducing gas into the capsule;
a means for evacuating gas from the capsule; and
a means for sealing and unsealing the capsule to either prevent or allow either the introduction of gas into the capsule or the evacuation of gas from the capsule;
wherein said midsole is divided into a forefoot portion, a midfoot portion, and a heel portion, with the forefoot portion being located at a forward end of the midsole and the heel portion located at an end of the midsole opposite the forefoot portion and the midfoot portion located between the forefoot portion and the heel portion, and
each of the communications between the sub-capsules is sized smaller than the smallest granule such that gas may pass through said communication but granules may not.
2. The midsole of claim 1 wherein at least one of the one or more sipes is substantially linear.
3. The midsole of claim 1 wherein at least one of the one or more sipes is substantially curved.
4. The midsole of claim 1 wherein at least one of the one or more sipes is located proximate to a junction of the forefoot portion and the midfoot portion of the midsole.
5. The midsole of claim 4 wherein at least one of the one or more sipes located proximate to the junction of the forefoot portion and the midfoot portion of the midsole is substantially linear.
6. The midsole of claim 4 wherein at least one of the one or more sipes located proximate to the junction of the forefoot portion and the midfoot portion of the midsole is substantially curved.
7. The midsole of claim 1 wherein the granules are deformable.
8. The midsole of claim 1 further comprising an adhesive, whereby said adhesive is admixed with the plurality of granules.
9. The midsole of claim 1 wherein the means for introducing gas into the capsule comprises a pump.
10. The midsole of claim 1 wherein the means for evacuating gas from the capsule comprises a pump.
11. The midsole of claim 1 wherein
the means for introducing gas into the capsule comprises a pump and
the means for evacuating gas from the capsule comprises said pump;
whereby said pump is suitably adapted to both force gas into the capsule and to draw gas out of the capsule.
12. The midsole of claim 1 wherein the means for sealing and unsealing the capsule to either prevent or allow either the introduction of gas into the capsule or the evacuation of gas from the capsule comprises a sealable valve, said sealable valve being integrated with the capsule.
13. The midsole of claim 12 wherein the capsule has an outer surface and the sealable valve is positioned flush with the outer surface of the capsule.
14. The midsole of claim 12 wherein the means for introducing gas into the capsule comprises the sealable valve.
15. The midsole of claim 12 wherein the means for introducing gas into the capsule comprises a pump and the sealable valve;
whereby a portion of the pump is suitably adapted to be removably inserted into the sealable valve and the pump is further suitably adapted to force gas through the sealable valve into the capsule.
16. The midsole of claim 12 wherein the means for evacuating gas from the capsule comprises a pump and the sealable valve;
whereby a portion of the pump is suitably adapted to be removably inserted into the sealable valve and the pump is further suitably adapted to draw gas through the sealable valve out of the capsule.
17. The midsole of claim 12 wherein
the means for introducing gas into the capsule comprises a pump and the sealable valve;
the means for evacuating gas from the capsule comprises said pump and the sealable valve;
whereby a portion of said pump is suitably adapted to be removably inserted into the sealable valve and said pump is further suitably adapted to both force gas into the capsule and to draw gas out of the capsule.
18. The midsole of claim 1 wherein
the means for introducing gas into the capsule comprises a pump;
the means for evacuating gas from the capsule comprises said pump; and
the means for sealing and unsealing the capsule to either prevent or allow either the introduction of gas into the capsule or the evacuation of gas from the capsule comprises said pump;
whereby said pump is integrated with the capsule, is suitably adapted to both force gas into the capsule and to draw gas out of the capsule, and is further suitably adapted to either prevent or allow either the introduction of gas into the capsule or the evacuation of gas from the capsule.
19. The midsole of claim 1 whereby the midsole is suitably adapted to be easily inserted into and removed from an article of footwear without the use of tools.
20. The midsole of claim 1 whereby the midsole is integrated with an article of footwear.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US12/140,858 US20090307926A1 (en) | 2008-06-17 | 2008-06-17 | Adjustable midsole for footwear |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US12/140,858 US20090307926A1 (en) | 2008-06-17 | 2008-06-17 | Adjustable midsole for footwear |
Publications (1)
Publication Number | Publication Date |
---|---|
US20090307926A1 true US20090307926A1 (en) | 2009-12-17 |
Family
ID=41413428
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US12/140,858 Abandoned US20090307926A1 (en) | 2008-06-17 | 2008-06-17 | Adjustable midsole for footwear |
Country Status (1)
Country | Link |
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US (1) | US20090307926A1 (en) |
Cited By (3)
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WO2014083034A1 (en) | 2012-11-28 | 2014-06-05 | Altro Cuore S.R.L. | Shoe provided with platform with inner chamber comprising a cushioning filling |
US20170273408A1 (en) * | 2016-03-22 | 2017-09-28 | Nike, Inc. | Sole structure having a divided cleat |
US11641906B2 (en) | 2020-02-27 | 2023-05-09 | Nike, Inc. | Medially-located lateral footwear stabilizer |
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Publication number | Priority date | Publication date | Assignee | Title |
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WO2014083034A1 (en) | 2012-11-28 | 2014-06-05 | Altro Cuore S.R.L. | Shoe provided with platform with inner chamber comprising a cushioning filling |
US20170273408A1 (en) * | 2016-03-22 | 2017-09-28 | Nike, Inc. | Sole structure having a divided cleat |
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US11910878B2 (en) | 2020-02-27 | 2024-02-27 | Nike, Inc. | Medially-located lateral footwear stabilizer |
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Legal Events
Date | Code | Title | Description |
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AS | Assignment |
Owner name: O'BRIEN MEDICAL CO., LLC, MAINE Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:O'BRIEN, TODD;CATALANO, GREGORY;REEL/FRAME:021162/0213 Effective date: 20080613 |
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AS | Assignment |
Owner name: O'BRIEN MEDICAL CO., LLC, MAINE Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:O'BRIEN, TODD;CATALANO, GREGORY;REEL/FRAME:021326/0524 Effective date: 20080613 |
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STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |