A FOOTWEAR HEEL

Abstract

A footwear heel 40, including a storage cavity 32 provided within the heel 40; the cavity 32 provided for storing an item. The cavity 32 includes an access opening 52 providing access to the storage cavity 32 through the inside of an associated item of footwear 36. A cover 50 is provided for covering the access opening 52. The cavity 32 is formed in the heel 40 during manufacture of the heel 40 by providing at least one of a surround and a last within one of a footwear heel mould and a footwear sole mould, and then adding a heel material in a fluid form into the mould about at least one of the surround and last.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a National Stage application of PCT/AU2014/001163, filed Dec. 23, 2014, which claims the benefit of Australian Application No. 2013905073, filed Dec. 24, 2013, both of which are incorporated by reference in their entirety herein.

TECHNICAL FIELD

The present invention relates to footwear, and more particularly to an arrangement allowing an item to be stored within the foot. The invention has been particularly but not exclusively designed for storing one or more components of wearable and implantable and near field/proximity technology devices in an item of footwear, and so will hereinafter be generally described in this context. However, it is to be appreciated that the invention may be utilized in other applications.

It should be noted the invention has been discussed in the context of the invention being utilised with certain wearable, implantable and near field/proximity technology devices. However it should be realised that these technology devices are only representative of a vast array of future technology devices that may be able to be powered by the invention. These devices will be networked using communications protocols such as but not restricted to near field/proximity device communications, Bluetooth, nanoscale communication networks, body area networks, personal area networks, near-me area networks, car area networks and broader local area networks, wide area networks and internet cloud area networks.

BACKGROUND OF INVENTION

There are currently numerous arrangements provided for storing a myriad of items within footwear. Many of these arrangements conveniently provide a dedicated separate storage compartment for storing items in a range of possible positions on or within the footwear, including within the body of the footwear heel.

Many of these possible arrangements are relatively elaborate in design, but largely impractical, in so far as they would be difficult and/or expensive to manufacture, offer very limited storage space, are difficult to access and/or don't suitably protect the contents of the storage space from possible damage. Moreover, some existing arrangements are considered to provide limited security to any items being stored within the footwear, potentially allowing for inadvertent or unauthorised removal (or loss) of the contents while wearing the footwear.

It would therefore be desirable to provide a storage arrangement associated with footwear having near seamless integration into existing footwear manufacturing processes, a potentially improved storage capacity and accessibility compared to at least some existing arrangements. It would be further desirable to provide a storage arrangement that protects and stabilises the contents therein stored. Further it would be desirable to provide an arrangement that provides improved security and lessens the likelihood of inadvertent or unauthorised removal therefrom when compared to existing arrangements.

In the context of wearable and implantable technology devices, there are currently numerous portable, wearable and implantable technology devices available, offering a diverse range of functions. These include devices offering the user general information services (such as Google Glasses™), communication functions (such as offered by smart phones), body monitoring devices, body sensory devices, devices for monitoring atmospheric conditions, and location trackers.

Such devices typically include a sensor, a power supply and some kind of interface for the user to interpret sensed data. They may also include additional functionality, such as where certain sensed data triggers the device to perform a function (for example, a certain reading may trigger a drug dosage being supplied to the user).

The fact that each device is provided with its own power supply is generally acceptable, except that the power supplies add to the bulk of the devices. When multiple wearable or implantable technology or near field/proximity devices are worn at the same time, the user is, in effect carrying multiple (portable) power supplies.

It would, therefore, be desirable to potentially reduce the bulk of each wearable/implantable/near field/proximity technology device. It would also be desirable to potentially rationalise the number of power supplies required to use multiple wearable and implantable and near field/proximity technology devices at the same time.

Further, it would be desirable to potentially reduce the cost to manufacture wearable, implantable and near field/proximity technology devices by rationalizing the number of separate component parts therein required to operate.

It would also be desirable to potentially limit the number of rechargers required when using multiple wearable, implantable and near field/proximity technology devices, since currently many portable and rechargeable power supplies require a dedicated charger to recharge the power supply.

Finally, it would be desirable to offer a potential solution to the issue of when the power supply (e.g. battery) of a wearable, implantable or near field/proximity technology device runs out during use of the device, thereby rendering the device inoperable.

A reference herein to a patent document or other matter which is given as prior art is not to be taken as an admission or a suggestion that that document or matter was, known or that the information it contains was part of the common general knowledge as at the priority date of any of the claims.

SUMMARY OF INVENTION

According to one aspect of the present invention, there is provided a footwear heel. The heel includes a storage cavity provided within the heel, with the cavity provided for storing an item. The cavity includes an access opening providing access to the storage cavity through the inside of an associated item of footwear. A cover is provided for covering the access opening. The cavity is formed in the heel during manufacture of the heel by providing at least one of a surround and a last within one of a footwear heel mould and a footwear sole mould, and then adding a heel material in a fluid form into the mould about at least one of the surround and last.

Such an arrangement provides a potentially secure cavity for storing a range of items, some of which will be discussed in some detail below, but may also be utilised to store items such as keys, money, jewels and other important and valuable items.

Access through the inside of the footwear is desirable, because it potentially lessens the likelihood of stored items being inadvertently removed or stolen from the shoe while being worn, as the wearer's foot would prevent access to the cavity opening.

The term cavity has been used in the preceding paragraph, although it is to be appreciated that the cavity may also be described as void or recess. In one embodiment, the heel is integrated into a footwear sole, mid-sole or outer-sole during manufacture of the sole, and the heel forms part of an overall footwear sole mould

Indeed, it is to be appreciated that the heel is provided for integrating into an item of footwear.

Desirably, relevant safety footwear incorporating the invention will conform to associated safety, protective and/or occupational footwear standards such as ISO 20345:2011, ISO 20346:2014, ISO 20347:2012, future revisions of these standards or the equivalent country-specific safety, protective or occupational footwear standards, such as AS/NZS 2210:1-5 and/or AS/NZS 4821 for Australia and New Zealand.

In one form of the invention, the access opening includes a recessed lip region for receiving a peripheral (or outer edge) region of the cover. It is envisaged that the lip region may be sufficiently recessed to receive the lid in an at least substantially flush configuration within the lip region such that the cover is level with the top of the sole, insole or foot-bed of the footwear and doesn't cause any discomfort for the wearer.

In one embodiment of the invention, the cavity includes a generally curved and smooth cavity wall. As examples, the cavity wall according to the invention can have a shape at least approximating one of a tear drop, ellipsoid, obround, spherical, oblate spheroid, prolate spheroid, horseshoe, trapezium or rounded shape. These shapes provide a desirable potential advantage by at least substantially preventing, or at least substantially limiting, both horizontal and vertical displacement between the embedded surround and the heel material while being worn. They potentially further assist during the manufacturing process by aiding the flow of fluid heel/sole material into the heel/sole mould and minimise the likelihood of unintentionally incorporating voids in the heel material.

The terms “horizontal” and “vertical” used in this specification are to be generally understood in the context of an item of footwear when sitting on an underlying surface.

In one embodiment, the invention includes a surround having a rigid or semi-rigid wall. The surround is provided about the cavity for protecting the storage cavity and any item stored within the cavity.

The surround may be of any suitable thickness and material. It is currently envisaged that the surround thickness may be approximately 1 mm, and may be manufactured from a thermosetting material. The thickness of the surround may vary across its surface, if desired.

The surround may be semi-deformable during the production process.

Desirably, the surround complies with standard AS/NZS 2210 for nail penetration.

It may be desirable, at least in some embodiments, for the surround to be provided in a bright colour.

In one form, the surround includes one or more internal attachment points, which can be utilised to connect and securely retain customised contents within the cavity.

In one form, the cover is deformable or at least semi-deformable, such that deformation of the cover by a wearer while wearing the footwear advantageously deforms or actuates an item stored within the cavity.

Further, the cover may include a force dampening layer or pad to dampen any impact received by the cover while being worn by a wearer.

In one possible form, the cover may have a thickness in the order of around 1 mm.

The cover may include a top surface or layer of an elastic or semi-elastic deformable material. In one form, the cover has a concave shape and a convex shaped layer of elastic or semi-elastic deformable material thereon.

In a preferred form, the cover is received within the recessed lip region with a friction fit or screw fit. It is to be understood that reference to a friction fit is intended to also include reference to an interference fit or a press fit, or other type of fit wherein the cover is retained within recessed lip by friction rather than any other fastening means.

In one form of the invention, padding material is provided in the cavity for receiving an item therein. The padding material is provided for further protecting any item stored within the cavity, and providing a degree of stability to the contents. The padding material may be removable. An opening may be provided in the padding material for receiving the item within the padding material. Preferably, the padding material is manufactured from a lightweight (for example foam) material and is shaped similarly to the cavity for a snug fit.

The use of foam for the padding is advantageous, in that it can be easily compressible, thereby providing a small amount of play to facilitate ingress and egress of contents into the padding and the cavity.

In a particularly preferred embodiment, the access opening is provided inside the footwear underneath a foot-bed or foot-bed portion. In such an arrangement, the foot-bed or foot-bed portion can include a fold-back crease to provide access to the cover, or a cut-out section to provide access to the cover.

The cover may include a rebated section to provide a simple and effective way of lifting and removing the cover. The rebated section may be provided at any suitable position on the cover.

In one form, the cover includes a lock to prevent unauthorised removal of the cover from covering the access opening. The lock may be releasable, so as to provide access to the access opening by removing the cover. However, a non-releasable (or permanent) lock is also contemplated for some embodiments in which no access the cavity is desired following fitting of the cover in place. The lock may include the use of adhesive to retain the cover in position.

The cavity has been specifically, but not exclusively, designed to retain a cavity item having a power supply device and a wireless power transmitting device for use with at least one of a wearable technology device, an implantable technology device and a near field/proximity technology device. With such an arrangement, in use, the wireless power transmitting device wirelessly transmits energy from the power supply to each wearable technology device, implantable technology device and near field/proximity technology device so as to power each wearable technology device, implantable technology device and near field/proximity technology device.

The terms “power transfer”, “power transmitting” and related terms are used in this specification, but are to be generally understood in terms of being in relation to the transfer/transmission of energy.

It should be noted that references to power supply and power transmitting devices for use with at least one of a wearable technology device, an implantable technology device and a near field/proximity technology device is meant to include any supporting electronic componentry such as a statistical storage device, data storage and computer processors.

The power supply device preferably includes both an energy generation device and an energy storage device, although embodiments are contemplated in which only an energy generation device is provided.

Electronic componentry supporting at least one of the power supply device and wireless power transmitting device may be embedded within a surround, if a surround is provided.

Energy may be generated in the energy generation device by striking the heel on an underlying surface, such as when the item of footwear is being worn.

A force dampening layer may be provided on, for example, the cover for, in use, calibrating the force used to generate energy by the power supply device.

So far, the invention has been described in the context of a single heel. However, it is to be appreciated that one form the invention includes a pair of footwear heels. In such an arrangement, one of the heels (or a first heel) would be associated with an item of footwear for a left foot, and the other heel (or second heel) would be associated with an item of footwear for a right foot. Each heel may include a cavity for housing a respective power supply device and a respective wireless power transmitting device. The power supply device and wireless power transmitting device of one heel may be designated as a primary power supply device and wireless power transmitting device. The power supply and wireless power transmitting device of the other heel may be designated as a back-up (or contingency) power supply and wireless transmitting device for use in the event of failure of one or both of the primary power supply and wireless power transmitting devices.

In another possible arrangement, the left and right hand shoes of a footwear pair may be provided for separate (and perhaps complimentary) functions.

In one embodiment of the invention, only one of the heels would include a cavity.

So far, the invention has been broadly described in the context of a footwear heel. However, the invention also relates to a method of manufacturing a footwear heel. The method includes the steps of placing at least one of a surround and a last within one of a footwear heel mould and a footwear sole mould; and then adding a heel material in a fluid form into the mould about at least one of the surround and last to form a storage cavity for storing an item within the heel, with the cavity formed with an access opening to provide access to the storage cavity through the inside of an associated shoe. A cover is also provided for covering the access opening.

In one form, the surround or last includes an integrated barrier. The barrier is provided so as to prevent the heel material from flowing (or leaking) into an upper of an associated item of footwear during the step of adding the heel material in fluid form into the mould.

In one particularly preferred form, the cavity is provided solely within the heel. In other words, the cavity does not extend forwardly into the arch or ball portions of the footwear sole. For footwear where there is sufficient sole height to incorporate cavity dimensions (sole height undiminished at the heel breast), a minor part of the cavity may extend into the rear of the footwear sole-waist region.

When the method utilises a surround, the barrier may be provided about an upper edge region of the surround.

In one embodiment, the method further includes fitting the barrier snugly within, above or underneath an insole layer of the item of footwear.

When the method utilises a last, the barrier may be formed about the last.

The method step of adding a material to one of a footwear heel mould and a footwear sole mould about the surround or last is undertaken using one of a direct injection, all moulded, casting, pouring or vulcanising processes.

BRIEF DESCRIPTION OF DRAWINGS

It will be convenient to hereinafter describe preferred embodiments of the invention with reference to the accompanying drawings. The particularity of the drawings is to be understood as not limiting the preceding broad description of the invention.

FIG. 1 is a side view of an existing footwear sole.

FIG. 2 is a plan view of the footwear sole shown in FIG. 1.

FIG. 3 is aside view of a footwear sole incorporating a heel according to one embodiment of the present invention.

FIG. 4 is a plan view of the footwear sole shown in FIG. 3.

FIG. 5 is a side view of an existing footwear sole portion.

FIG. 6 is a plan view of the footwear sole portion shown in FIG. 5.

FIG. 7 is a side view of a footwear heel according to another embodiment of the present invention.

FIG. 8 is a plan view of the footwear heel shown in FIG. 7.

FIG. 9 is a side view of existing footwear.

FIG. 10 is a side view of footwear according to another embodiment of the present invention.

FIG. 11 is a side view of another embodiment of footwear according to the present invention.

FIG. 12 is a plan view of the footwear shown in FIG. 11.

FIG. 13 is perspective view of a portion of an item to be housed within the cavity of a heel in accordance with one embodiment of the present invention.

FIG. 14 is a schematic diagram of an arrangement incorporating a heel in accordance with one embodiment of the present invention.

FIG. 15 is a schematic diagram of an arrangement incorporating a heel in accordance with another embodiment of the present invention.

DETAILED DESCRIPTION

The present invention may utilize any one (or more) of a wide variety of footwear designs, as will be evident from the following discussion of the drawings. It is to be appreciated that while numerous footwear designs are shown and discussed in this application, the invention may incorporate other footwear designs.

FIGS. 1 and 2 illustrate conventional footwear incorporating a cement/adhesive attached sole construction.

FIGS. 3 and 4 also illustrate footwear having a cement/adhesive attached sole construction, but wherein the mould used for formation of the sole is modified to form a heel cavity in accordance with the present invention.

As can be seen, there is provided a footwear sole 34 including an integrated heel 40. The heel 40 includes a storage cavity 32 provided (or embedded) within the heel 40. The cavity 32 is provided for storing an item (not shown). The cavity 32 includes an access opening 52 providing access to the cavity 32 through the inside of an associated item of footwear 36. A cover 50 is provided for covering the access opening 52.

It can be seen in FIG. 3 that the cavity 32 includes a recessed lip or step 54 for receiving the cover 50 in a flush manner within the footwear 36, thereby not affecting the wearing comfort of the footwear 36. In the embodiment of FIGS. 3 and 4, the access opening 52 is accessible through or by removal of a footbed. The cover 50 is receivable in the recessed lip or step 54 with a friction or screw fit.

The cover 50 is deformable or at least semi-deformable, such that deformation of the cover 50 by a wearer while wearing the footwear 36 is capable of deforming or actuating an item stored within the cavity 32.

Further, although not clearly evident, the cover 50 includes a force dampening layer or pad to dampen any impact received by the cover 50 while being worn by a wearer.

The illustrated cover 50 may have a thickness in the order of around 1 mm.

Further, although not illustrated, the cover 50 may include a top surface or layer of an elastic or semi-elastic deformable material; and the cover 50 has a slight concave shape and a convex shaped layer of elastic or semi-elastic deformable material thereon.

The cavity 32 is provided in a midsole portion 42 of the heel 40, between an outer sole portion 44 and an insole portion 46.

The cavity 32 is formed in the heel 40 during manufacture of the heel 40 by providing at least one of a surround and a last within one of a footwear heel mould and a footwear sole mould, and then adding a heel material in a fluid form into the mould about the surround and/or last.

A rigid or semi-rigid surround 48 is shown in FIGS. 3 and 4, and advantageously provides reinforcement for the cavity wall, and protects the storage cavity 32 and any item stored within the cavity 32.

Suitable strengthening of the sole 34 may be required over and above that shown in the conventional design of FIGS. 1 and 2, so as to accommodate the cavity 32 without compromising the integrity of the sole 34.

A light-weight foam, removable padding material 53 is provided in the cavity 32 for receiving an item therein. The padding material 53 is provided for further protecting any item stared within the cavity 32, and providing a degree of stability to the contents. The padding material 53 is provided with an opening (not visible) for receiving the item within the padding material 53. The padding material 53 is shaped to snugly fit within the cavity 32.

The access opening 52 is provided inside the footwear 36 underneath a foot-bed 37. It is envisaged that the foot-bed 37 would include one of a fold-back crease 37a or a cut-out section 37b to provide access to the cover 50.

The cover 50 includes a rebated section 39 to provide a simple and effective way of lifting and removing the cover 50.

FIG. 14 provides a schematic view of the cavity 32 of the present invention when utilised in one possible application having a wearable technology system 20. The system 20 includes two wearable technology devices in the form of an ECG 22 and a GPS tracker 24. The ECG 22 is worn on the user's chest, adjacent the heart and the GPS tracker 24 is worn on the wrist.

While two wearable technology devices 22, 24 are shown, the system 20 may incorporate any practical number of wearable technology devices and implantable technology devices and near field/proximity devices. Other possible wearable/implantable/near field/proximity devices include those related to general information communication, communication, body functions, body sensory functions, atmospheric conditions, body coverings and geographic location devices. It is to be appreciated that each wearable/implantable technology device may include more than one function or application. Example devices and uses are provided below:

			Example
Appli-		Example	Product
cation		Products	Company
General	Presenting information,	Google	Google
Infor-	including filtering	Glasses,	Pebble
mation	activities, on surrounds	Pebble	Technology
Commu-	and information	Smart	Indiegogo
nication	captured by other	Watch,
	wearable/implantable	Smartie
	technology devices	Ring
Commu-	Cover the powering	iPhone 5c	Apple
nication	of current generation	Galaxy Tab	Samsung
	communication devices and future	2
	communications technology
	including but not
	restricted to 3D, holographic,
	mind (thought)
	controlled and/or Virtual Reality
	communications devices
Body	Cover the powering of	Biostamp	MC10
Functions	wearable/implantable	Mimo	Rest
	technology whose	Various	Devices
	functions include the	Smart Bra	Heapsylon
	detection, identification,	Mammo Bra	Concept
	escalation and	Fitbit	Concept
	potential rectification of
	normal, irregular and
	abnormal body functions including,
	but not restricted to:
	Eating
	Electroencephalography (EEG)
	Electrocardiogram (ECG)
	Electromyography (EMG)
	Heart Rate and Heart Activity
	Breathing Rate
	Blood Pressure
	Blood Testing (e.g. alcohol)
	Temperature
	Body, Skin and Hair
	Hydration and Condition
	Skin abnormalities
	Endocrinology functions
	(e.g. thyroid)
	Gastrointestinal functions
	(e.g. reflux)
Body	Cover the powering of	Hearing	Various
Sensory	wearable/implantable	Aids,
Functions	technology whose functions include	Speech
	the detection, identification,	Processors
	escalation, possible
	augmentation/enhancement
	and potential
	rectification of normal,
	irregular and abnormal
	body sensory functions including,
	but not restricted to:
	Auditory
	Speech
	gustatory
	olfactory
	somatosensory/tactition/
	mechanoreception
Atmos-	Cover the powering of	Unknown	Unknown
pheric	wearable/implantable
Condi-	technology whose functions
tions	may include, but
	are not restricted to,
	the sampling, detection,
	escalation and potential
	rectification of
	atmospheric conditions including,
	but not restricted to:
	Temperature
	Atmospheric Pressure
	Atmospheric Pollution
	Atmospheric Pollen
	Weather Conditions
	UV Exposure
	Atmospheric Conditions
	(Weather, Pollution)
	Atmospheric Gas Ratios
Body	Cover the powering of	Sensory
Cover-	wearable/implantable	Dress
ings	technology whose functions
	may include, but
	are not restricted to,
	the detection and/or
	presentation of information though
	the medium of body coverings

The provision of multiple wearable and/or implantable technology and/or near field/proximity devices allows for a range of applications. Example applications include communications, safety, social activities, dress attire, hobbies and sport (such as monitoring individual and team sport metrics) and medical implants. The invention allows, for example, the provision of assistance in areas such as monitoring of the safety of workers and early identification of potentially life threatening injuries or situations.

Preferably, the wearable and/or implantable technology and/or near field/proximity devices include a suitable means for displaying or presenting the information pertaining to and captured by the devices. As non-limiting examples, the devices may be utilized for the analysis and capture of information relating to the wearer's body and its associated internal functions, body sensory functions and atmospheric, geographic and local proximity information.

FIG. 14 also illustrates a device power supply 26 and a wireless power transmitting device 28, which may both be provided within an integrated unit 30 of the type shown in FIG. 13. The power supply 26 is intended to be rechargeable, although need not be so. The unit 30 is also shown as including supporting electronics 33 and a statistical storage device, which may prove useful for a number of applications.

The integrated unit 30 of FIG. 13 is designed for receipt in the cavity 32 (of FIGS. 3 and 4) in the heel 40 of the user's footwear 36 (shown in dashed line format in FIG. 3). The cavity 32 may adopt any suitable shape, and may include sloping sidewalls. The unit 30 may require a different shape to that illustrated in FIG. 13 in order to fit within the cavity 32. Thus, it can be appreciated that, in the context of the user's body, the power supply 26 is located remotely from the wearable technology and/or implantable technology and/or near field/proximity device and separately worn by the user. This is possible because a wireless power transmitting device 28 is provided for wirelessly transmitting energy from the power supply 26 to each of the wearable technology devices to power the wearable technology devices 22, 24.

The unit 30 may incorporate other components so as to provide enhanced functionality of the system. For example, the unit 30 may include other electronics components such as sensory devices (e.g. body, environment, spatial), data storage devices (egg. RFID, flash and other mediums of storage), computer processors, computer memory and communication transmitters). These additional components are preferably fitted within the unit 30, but this does not preclude them being fitted elsewhere within the footwear, if desired.

If an additional power supply is provided then the footwear may also be provided with a dedicated power storage device for storing any power harvested from the footwear or another associated power generating device. In this way, two (or indeed more) power sources may be associated with each system. The dedicated power storage device may be incorporated into the unit 30, with the power supply 26, if desired.

One particular benefit in providing a device power supply 26 for powering multiple wearable/implantable/near field/proximity technology devices is that each of the technology devices can be potentially manufactured more compactly and light-weight because a separate battery need not be required in each technology device. However, it may be that some technology devices retain at least a small integrated battery as a back-up power source, should a back-up power source be required.

The illustrated cavity 32 is provided for receiving an integrated unit containing a power supply 26 and a transmitting device 28, although it is also contemplated that the cavity may house solely the power supply 26 (or transmitting device 28) if it is desirable to do so. In fact, the cavity 32 may be used for any desired purpose, including for the storage of miscellaneous items.

The footwear 36 and sole 34 may be manufactured with the unit 30 already fitted within the cavity 32. In the embodiment illustrated in FIGS. 3 and 4 the unit 30 is removable from the footwear 36 and sole 34.

The illustrated rechargeable power supply 26 shown in FIG. 13 is provided in the form of a kinetic battery, wherein the battery is recharged upon movement thereof. Thus, movement of the footwear (such as by walking, jogging, running or other perambulatory movements) recharges the battery incorporated into the footwear. In this way, a kinetic battery can be considered to be a type of electric power generator, although preferably also having the capability of storing at least some of the electric power generated for later use.

One specific form of a kinetic battery contemplated in the present invention includes a piezoelectric generator (not visible), whereby the piezoelectric generator is electrically recharged upon deformation, vibration or pressure applied thereto.

In one possible alternative form, the power supply is of the non-rechargeable type. Fitment of a non-rechargeable power supply into the cavity 32 may be practical, particularly where removal and replacement of a used power supply is possible.

The power transmitting device may adopt any feasible form and, in the embodiment illustrated in FIGS. 13 and 14 includes a non-radiative energy transmitting device 28, allowing the power supply 26 to separately and wirelessly power the devices 22, 24.

In one form, the wireless power transmission arrangement may be of the type disclosed in any one or more of U.S. Pat. Nos. 8,159,364, 8,446,248, 8,419,953 and 8,558,661.

Electronic componentry of at least one of the power supply device 26 and wireless power transmitting device 28 may be embedded within the surround 48 (if, as in the embodiment of FIGS. 3 and 4, a surround is provided).

Energy may be generated in the energy generation device by striking the heel 40 on an underlying surface, such as when the footwear 36 is being worn.

FIGS. 7 and 8 illustrate a heel 120 pertaining to another possible footwear design incorporating the invention. The heel 120 forms part of a footwear sole (the remainder of the sole has been omitted from the drawings for clarity purposes). A conventional (and comparable) heel design is shown in FIGS. 5 and 6 for comparative purposes.

FIGS. 5 through 8 are generally directed to a stitched sole construction. It is to be appreciated, however, that the heel 120 shown in FIGS. 7 and 8 is modified to form a cavity, which is otherwise absent for the conventional heel shown in FIGS. 5 and 6.

The heel 120 may be utilized in a wearable technology system 20 of the type generally shown in FIG. 14 including any desired number of wearable technology and implantable technology and near field/proximity devices.

The heel 120 shown in FIGS. 7 and 8 includes cavity 132 designed for housing an integrated power supply and wireless power transmitting unit 30 of the type shown in FIG. 13 (and schematically in FIG. 14), although the specific shape of the unit 30 may require modification to fit into the cavity 132. It is to be appreciated that the heel 120 may also be utilised for other applications besides in a wearable technology system.

As with the cavity 32 shown in FIGS. 3 and 4, the cavity 132 allows the power supply 26 to be located remotely from the wearable technology device and separately worn by the user, by virtue of the wireless power transmitting device 28 for wirelessly transmitting electric power from the power supply 26 to each of the associated wearable and/or implantable technology devices. Again, one particular benefit in providing a device power supply 26 for powering multiple wearable/implantable technology devices is that each of the technology devices can be potentially manufactured more compactly and light-weight, because a separate battery need not be required in each technology device. The unit 30 and components thereof may be of substantially the same form as that incorporated into the footwear 36 of FIGS. 3 and 4, or they may adopt some other suitable form.

The design of the heel 120 is such that the unit 30 is removably fitted within the cavity 132. The cavity 132 includes a cover 150 which, when opened, allows access to the cavity 132 through an access opening 152. It can be seen in FIG. 7 that the cavity 132 includes a lip or step 154 for receiving the cover 150 in a flush manner within the footwear, thereby not affecting the wearing comfort of the footwear. In the embodiment of FIGS. 7 and 8, the access opening 152 is accessible through or by removal of a footbed (not shown).

It can also be seen in FIG. 7 that the cavity 133 is provided above an outer sole portion 144 of the heel.

Although not clearly shown in FIGS. 7 and 8, the cavity 132 may include a reinforced cavity wall 148 (in the form of a surround), for protecting the power supply 26 and the power transmitting device 28 and to potentially provide additional strength the heel 120. The cavity 132 may also be padded to further protect the components therein contained.

FIG. 10 illustrates yet another possible footwear design incorporating the present invention. The footwear 236 is in the form of a woman's high heel shoe having a sole 234 and heel 220 attached to the sole 234. A conventional (and comparable) women's high heel shoe design is shown in FIG. 9 for comparative purposes. The heel 234 may require strengthening if incorporating the invention.

The heel 220 may be utilized in a wearable technology system 20 of the type generally shown in FIG. 14 including any desired number of wearable technology and implantable technology and near field/proximity devices. The heel 220 may also be utilised to store any other desired item.

The heel 220 shown in FIG. 10 includes a cavity 232 designed for housing an integrated power supply and wireless power transmitting unit 30 of the type shown in FIG. 13, although the specific shape of the unit 30 may require modification to fit within the cavity 232.

Like the cavity 32 shown in FIGS. 3 and 4, the cavity 232 allows the power supply 26 to be located remotely from the wearable technology device and separately worn by the user, by virtue of the wireless power transmitting device 28 for wirelessly transmitting power from the power supply 26 to each of the associated wearable and/or implantable technology and/or near field/proximity devices. The unit 30 and components thereof may be of substantially the same form as that incorporated into the footwear 36 of FIG. 3, or they may adopt some other suitable form. Of course, the shape of the unit 30 may need to be altered so as to fit within the cavity 232.

The design of the heel 220 is such that the unit 30 is removably fitted within the cavity 232 (but could be permanently fitted, if desired). The cavity 232 includes a cover 250 which, when opened, allows access to the cavity 232 through an access opening 252. It can be seen in FIG. 10 that the cavity 232 includes a lip or step 254 for receiving the cover 250 in a flush manner within the footwear 236, thereby not affecting the wearing comfort of the footwear 236. In the embodiment of FIG. 10, the access opening 252 is accessible through or by removal of a footbed (not shown).

The cavity 232 may include a reinforced cavity wall 248 (in the form of a surround), for protecting the power supply 26 and the power transmitting device 28, and to potentially provide additional strength to the heel 220. The cavity 232 may also be padded to further protect the components or items therein contained.

A hole may be cut into the insole and footbed fitted within the shoe to provide access to the cavity 232. Alternatively, the footbed may be provided with a fold-back crease to provide access to the cavity 232.

FIGS. 11 and 12 illustrate a footwear last 336 for use in manufacturing a possible footwear design (such as footwear 436 of FIG. 15) incorporating the present invention, wherein the footwear is manufactured by a direct injection moulding technique.

Manufacture of the footwear 120 may incorporate the usage of one or two lasts. These lasts may include a “making” last 336 and an “injecting” last (not shown).

The “making” last 336 may also be used during the injection process—in this case an additional “injecting” last may not be required. The injecting last (composed of mediums such as metal or plastic) may include an additional protrusion 340 (see FIGS. 11 and 12). This protrusion 340 may be available as an add-on to existing lasts or as a “made for purpose” last. The protrusion 340 may be attached to an existing last by methods including but not limited to screws, hinges, latches, welding, adhesive and/or magnetic forces. The protrusion 340 may be solid or hollow. If it is hollow, the hollow section may face the last. The protrusion 340 may follow the contour or edge of the heel section of the last. During sole moulding, this protrusion enables formation of a cavity within the heel area of the sole of the footwear. The protrusion 340 may be stepped to allow the formation of a step/ledge (by virtue of the step/ledge/lip 341 on the last 336) within the sole/midsole and may also incorporate sloping channel(s) from the sides and/or rear of the footwear. While still providing physical access to the cavity, the ledge may provide a fixing point which would enable a secure closure to the top of the cavity to prevent ingression of the heel into the cavity during wear. The cavity and walls are constructed from suitable materials to allow for the transmission of energy or information.

To allow the upper to be seated onto the last, the protrusion from the last may require a similar shaped hole to be cut in the insole

The protrusion 340 is provided to form a cavity 132 of the type shown in FIGS. 7 and 8 for housing an item, such as an integrated power supply 26, wireless power transmitting unit 30, and associated supporting electronics 33 of the type shown in FIG. 13. The specific shape of the unit 30 may require modification, such as insertion into padding shaped similar to the cavity 132, to fit in the cavity 132.

The cavity 132 (again, shown in FIGS. 7 and 8) allows the power supply 26 to be located remotely from the wearable technology device and separately worn by the user, by virtue of the wireless power transmitting device 28 for wirelessly transmitting power from the power supply 26 to each of the associated wearable and/or implantable technology devices. The unit 30 and components thereof may be of substantially the same form as that incorporated into the footwear 36 of FIG. 3, or they may adopt some other suitable form. The shape of the unit 30 may need to be altered, such as insertion into padding shaped similar to the cavity 132, so as to fit within the cavity 132.

The cavity 132 may include a reinforced cavity wall 148 in the form of a surround for protecting the power supply 26 and the power transmitting device 28 and associated supporting electronics 33, and to potentially provide additional strength to the heel 120. The cavity 132 may also be padded to further protect the components therein contained.

An alternative method for the formation of the cavity 332 is to incorporate/stick/attach the unit 30 onto the heel area of the insole (or the heel area of a fully enclosed upper) before the manufacturing step of sole/midsole injection. For example, the unit 30 may be incorporated into the actual formation of the insole before its integration into the footwear upper or attached to the insole after completion of the manufacture of the upper. The outer capsule (or surround) of the unit 30 could form the cavity 332 required within the sole/midsole (or be used in conjunction with the proposed injecting last protrusion), and the heel/sole material in fluid form could then be added to the heel/sole mould about the surround. Once the heel material has sufficiently solidified, the surround is then embedded within the heel.

Thus, it is to be appreciated that manufacture of the heel includes the steps of placing at least one of a surround and a last within a heel mould; and then adding a heel material in a fluid form into the mould about at least one of the surround and/or last to form a storage cavity for storing an item within the heel, with the cavity formed with an access opening to provide access to the storage cavity through the inside of an associated item of footwear.

Future technologies for the manufacture of footwear, such as but not restricted to 3D printing, will likely adopt an additive manufacturing process whereby successive layers of the shoe are built from cross sections obtained from footwear digital models of reference using materials that are generally partially fluid and applied via extrusion deposition and photopolymerisation. The digital model of reference for the sole of the footwear may incorporate a cavity, which may be stepped to allow the formation of a ledge within the sole/midsole. Both a similar shaped hole to the cavity, which may be required to be cut in the insole above the cavity, and a cover for the access opening, may also be incorporated into the digital model of reference.

So far, the invention has been generally described in the context of wireless transmission of power. However, it is also contemplated that the invention could also include as an option wired power transmission between the power supply and the technology devices. Wired power supply may be by way of a hardwire connection, or may also include power transmission via a port (for example, a USB, USB mini, FireWire, etc.), or by direct connection to other electronic components within the system. Access to these connections could be via the access opening to the cavity and might require the cover to be adapted to incorporate the passage of physical wires or ports.

FIG. 15 illustrates another embodiment of the present invention, wherein the cavity 432 has a curved and smooth cavity wall having a generally rounded shape by the provision of a surround 421 integrated into the heel 420. It is to be appreciated that this shape may be provided in any one of a tear drop, obround, spherical, oblate spheroid, prolate spheroid, horseshoe, trapezium or other rounded shape.

These shapes provide a desirable potential advantage by at least substantially preventing, or at least substantially limiting, both horizontal and vertical displacement between the embedded surround and the heel material while being worn. They potentially further assist during the manufacturing process by aiding the flow of fluid heel/sole material into the heel/sole mould and minimise the likelihood of unintentionally incorporating voids in the heel material.

As shown in FIG. 15, the surround 421 (or optionally a last) includes an integrated barrier 423. The barrier 423 is provided so as to prevent the heel material from flowing (or leaking) into the footwear upper 425 during the step of adding the heel material in fluid form to the mould.

When the method utilises a surround 421 (as in the embodiment shown in FIG. 15), the barrier 423 may be provided about an upper edge region 437 of the surround.

It can be seen that in this arrangement, the barrier 423 is fitted barrier snugly within, above or underneath an insole layer 427 of the item of footwear, or form part of the insole.

When the method utilises a last, the barrier may be formed about the last. When only using a last, the barrier may include a ring fitted snugly under the insole layer 427. When using a last and a surround, the barrier 423 may be fitted snugly within, above or underneath the insole layer 427 of the item of footwear.

The cavity 432 is provided in the rear of the footwear in the heel 420.

The cavity 432 includes a lip or step (not clearly shown) for receiving the cover 450 in a flush manner within the footwear 436, thereby not affecting the wearing comfort of the footwear 436. In the embodiment of FIG. 15, the access opening 452 is accessible through or by removal of a footbed.

The present invention potentially provides a footwear storage arrangement having a potentially improved storage capacity compared to at least some existing arrangements. It also potentially provides a storage arrangement that protects and stabilises the contents therein stored, particularly when provided with a surround.

The uptake of the use of personal storage cavities by consumers will be facilitated by the ability of cavity contents to be transferred between cavities located in different physical entities (such as shoes) by removing the cover to the access opening and egressing contents from the cavity.

The cavity may be utilised in a myriad of possible applications, and can be provided in a range of sizes and shapes to suit those applications.

The applicant has also provided an arrangement that is capable of being integrated in mainstream production in the footwear industry, allowing a manufacturing cost for the production of personal storage cavities within the footwear which can facilitate their uptake by footwear manufacturers.

Further, access to the storage cavity of the present invention is through the inside of the footwear; and so requires the footwear to first be removed from the wearer's foot. This provides potentially improved security and lessens the likelihood of inadvertent item removal therefrom when compared to at least some existing arrangements that allow access through the rear, side or underside of the footwear (and regardless of whether or not the prior art footwear is being worn). Security can optionally be further improved in the present invention by permanently locking or securing the access cover in place, either by using adhesive or some other suitable arrangement. The lock may also be in the form of a releasable lock.

In the context of the invention being utilised in certain wearable and implantable technology devices, the invention allows for the possibility of such devices to be manufactured more compactly, since the power supply is provided separate to the device and stored within the heel cavity. This may be of particular benefit when multiple wearable, proximity or implantable technology devices are worn at the same time, since each device can be potentially more compact than existing models.

In the context of the invention being utilised in certain wearable and implantable technology devices, the present invention also potentially rationalises the number of power supplies required to operate multiple wearable and implantable technology devices at the same time.

In the context of the invention utilised in certain wearable and implantable technology devices, given the potential removal of the power source from wearable and implantable devices (and possibly proximity devices), it may be possible to reduce the manufacture cost of the devices, which obviously is desirable.

In the context of the invention utilised in certain wearable and implantable technology devices, given that the power source of the present invention is rechargeable, it potentially does away with the need for a dedicated recharger for each wearable/implantable/proximity device that incorporates a rechargeable power supply.

In the context of the invention utilised in certain wearable and implantable technology devices, the present invention also potentially addresses the current issue with some devices, wherein the power source runs out mid-use of the device. The power source of the present invention is rechargeable, so a constant supply of power to each device may be possible. Nevertheless, if desired, some devices may retain a separate power source (e.g. battery) as a back-power source. This back-up power source may be more compact than existing power sources, given that its use may be necessary relatively infrequently.

Finally, it is to be understood that various alterations, modifications and/or additions may be introduced into the construction and arrangement of the parts previously described without departing from the spirit or ambit of this invention.

Claims

1-29. (canceled)

30. A footwear heel, comprising:

a storage cavity within the heel, with the cavity provided for storing an item;

the cavity including an access opening providing access to the storage cavity through the inside of an associated item of footwear;

a removable cover for covering the access opening; wherein the cover is deformable, such that deformation of the cover by a wearer while wearing the footwear deforms or actuates an item stored within the cavity;

wherein the cavity is formed in the heel during manufacture of the heel by providing at least one of a surround and a last within one of a footwear heel mould and a footwear sole mould, and then adding a heel material in a fluid form into the mould about at least one of the surround and last.

31. The footwear heel according to claim 30, wherein the heel is integrated into a footwear sole, mid-sole or outer-sole.

32. The footwear heel according to claim 30, wherein the heel forms part of an item of footwear.

33. The footwear heel according to claim 30, wherein the access opening includes a recessed lip region for receiving a peripheral edge region of the cover, the lip region being sufficiently recessed to receive the lid in an at least substantially flush configuration within the lip region.

34. The footwear heel according to claim 30, wherein the cavity includes a generally curved and smooth cavity wall.

35. The footwear heel according to claim 34, wherein the cavity has a shape at least approximating one of a tear drop, ellipsoid, obround, spherical, oblate spheroid, prolate spheroid, horseshoe, trapezium or rounded shape.

36. The footwear heel according to claim 30, including a surround having a rigid or semi-rigid wall for protecting the storage cavity and any item stored within the cavity.

37. The footwear heel according to claim 30, wherein the cover includes a force dampening layer to dampen any impact received by the cover while being worn by a wearer.

38. The footwear heel according to claim 30, including padding material provided in the cavity for receiving an item therein.

39. The footwear heel according to claim 38, the padding material having a padding opening for receiving the item within the padding material.

40. The footwear heel according to claim 30, wherein the access opening is provided inside the footwear underneath a foot-bed or foot-bed portion, the foot-bed or foot-bed portion including a fold-back crease to provide access to the cover.

41. The footwear heel according to claim 30, wherein the access opening is provided inside the footwear underneath a foot-bed or foot-bed portion, the foot-bed or foot-bed portion including a cut-out section to provide access to the cover.

42. The footwear heel according to claim 30, wherein the cover includes a lock to prevent unauthorised removal of the cover for covering the access opening.

43. The footwear heel according to claim 42, wherein the lock is a releasable lock to provide access to the access opening by removing the cover.

44. The footwear heel according to claim 30, wherein the cavity includes a cavity item having a power supply device and a wireless power transmitting device for use with at least one of a wearable technology device, an implantable technology device and a near field/proximity technology device wherein, in use, the wireless power transmitting device wirelessly transmits energy from the power supply to each wearable technology device, implantable technology device and near field/proximity technology device so as to power each wearable technology device, implantable technology device and near field/proximity technology device.

45. The footwear heel according to claim 44, wherein the power supply device includes an energy generation device and an energy storage device.

46. The footwear heel according to claim 44, wherein electronic componentry of at least one of the power supply device and wireless power transmitting device is embedded within the surround.

47. The footwear heel according to claim 44, wherein striking of the heel, such as when the item of footwear is being worn, generates energy in the power supply device.

48. The footwear heel according to claim 37, wherein, in use, the force dampening layer is used in the calibration of force used to generate energy by a power supply device.

49. A pair of footwear heels, with each heel of the pair of footwear heels in accordance with claim 30, with a first heel of the pair of heels associated with an item of footwear for a left foot, and a second heel of the pair of heels associated with an item of footwear for a right foot.

50. The pair of footwear heels according to claim 49, with the cavity provided in each heel including a power supply device and a wireless power transmitting device, with power supply device and wireless power transmitting device of one heel being designated as a primary power supply device and wireless power transmitting device, and the power supply and wireless power transmitting device of the other heel being designated as a back-up power supply and wireless transmitting device for use in the event of failure of one or both of the primary power supply and wireless power transmitting devices.

51. The footwear heel according to claim 30, wherein the cover is received within the recessed lip region with a friction fit or screw fit.

52. A method of manufacturing a footwear heel, comprising the steps of:

providing at least one of a surround and a last within one of a footwear heel mould and a footwear sole mould;

adding a heel material in a fluid form into the mould about at least one of the surround and last to form a storage cavity for storing an item within the heel;

the cavity formed with an access opening to provide access to the storage cavity through the inside of an associated shoe; and

providing a removable cover for covering the access opening wherein the cover is deformable, such that deformation of the cover by a wearer while wearing the footwear deforms or actuates an item stored within the cavity.

53. The method of manufacturing a footwear heel according to claim 52, the surround or last including an integrated barrier preventing the heel material from flowing into an upper of an associated item of footwear during the step of adding the heel material in fluid form to the mould.

54. The method of manufacturing a footwear heel according to claim 53, wherein the method utilises a surround, and the barrier is provided about an upper peripheral region of the surround, and the method further includes fitting the barrier snugly within, above or underneath an insole layer of the item of footwear.

55. The method of manufacturing a footwear heel according to claim 53, wherein the method utilises a last, and the barrier is formed about the last.

56. The method of manufacturing a footwear heel according to claim 52, wherein the step of adding a material to one of a footwear heel mould and a footwear sole mould about the surround or last, is undertaken using one of a direct injection, all moulded, casting, pouring or vulcanising processes.