The present invention relates to the field of footwear. More specifically, the present invention relates to the field of sandals or flip-flops having a toe thong location that is customised for a wearer, and a method of manufacturing same.
Sandals or flip-flops (generally referred to herein as sandals) are a popular form of footwear. They are most commonly worn in warm weather, since they allow more ventilation than most other forms of footwear. They are also often selected for wear for various other reasons, for example because they are light, casual in style, convenient to put on, easy to pack, waterproof, etc. Sandals are generally viewed as low cost items; from a manufacturing perspective, they tend to be of simple construction, and tend to be made from low-cost materials such as foam (e.g. ethylene-vinyl acetate foam) and plastic. Like most footwear, a standard construction is adopted with respect to the structural aspects of a pair of sandals, save with adjustments based upon the wearer's actual foot size. From a commercial standpoint, it is not generally contemplated that sandals could be customized for a particular wearer (also sometimes referred to herein as a “user”), especially given sandals' low cost and simple construction. However, given that there can be some considerable variety in terms of shapes, features, and sizes of people's feet, many wearers will find that the standard construction does not suit them even if the foot-size itself is the correct one. This can result in the sandals being ill-fitting or uncomfortable for a specific wearer (which will be exacerbated if the wearer does quite a bit of walking in the sandals and/or plans to wear them often).
Sandals are often provided with a toe thong. A toe thong (sometimes also called a “toe post”), as used herein, refers to a resilient member that is generally connected to the foot strap of the sandal, and to the sole of the sandal. The base of the toe thong is generally located on the upper sole of the sandal and is proximate to, when the sandal is worn by a wearer, the space between the neck of the wearer's big toe and the neck of the wearer's second toe. When the wearer is wearing and walking in such sandal, the toe thong helps to maintain the position of the sandal relative to the wearer's foot and helps prevent the sandal from falling off the wearer's foot. Further, the wearer may, when necessary, grip the toe thong between his big toe and second toe, so that the sandal does not easily fall off the wearer's foot. In the case of conventional sandals, the toe thong is located at a standard “one-position-fits-all” location. However, given that there can be some considerable variety in terms of shapes, features, and sizes of people's feet, a standard toe thong location can, in many cases, cause discomfort and/or an improper fit.
Accordingly, there would be advantages in providing a sandal wherein the location of the toe thong is customised for a particular wearer. By taking into account various wearer-specific parameters such as size, shape and/or profile of a wearer's foot; shape, size and location of the wearer's toes, and other related features of the foot (thickness, etc.), one would be able to determine a preferred location for a toe thong on the sandal for that wearer, and thus produce a sandal that is more customized for that wearer, thus improving the wearer's comfort and fit.
It is contemplated that one could employ various inputs to facilitate determining a preferred toe thong location. For example, this may be achieved via use of 2-dimensional (2-D) or 3-dimensional (3-D) imaging or via use of a computer vision algorithm based upon 2-D or 3-D foot data, e.g. using a single photograph of the wearer's foot, several photos of the wearer's foot taken from different angles, or a video of the wearer's foot taken from various angles. It is contemplated that the 2-D or 3-D foot data could be self-generated by a wearer (i.e. by the wearer photographing/capturing his own feet), generated by a device specifically configured for such purpose (e.g. a 2-D/3-D image camera at a kiosk); or generated by a third-party service provider; or provided from the wearer's medical records (e.g. from a podiatrist/chiropodist, including x-ray data). Such a sandal, having a customised toe thong location, could significantly improve a wearer's comfort and fit.
U.S. patent application Ser. No. 15/309,406, filed Dec. 23, 2016, entitled “Generation of 3D-Printed Custom Wearables”, discloses a possible approach for generating custom wearables based upon inputs involving scanning (a body part of the wearer), image processing, machine learning, computer vision, and/or user input, which is incorporated in its entirety herein by reference.
Furthermore, being able to provide such a customized sandal may allow greater options and flexibility regarding the design of sandals; for example, it may be possible to use stiffer/stronger materials for the toe thong than would otherwise be possible, because of the improved fit and comfort.
Disclosed herein is a method for manufacturing a sandal, wherein the toe thong location may be customised for a wearer. Also disclosed herein is a sandal with a customised toe thong location that is made in accordance with the above-described method.
In accordance with an aspect of the present invention, disclosed herein is a method for manufacturing a sandal having a toe thong location that is customised for a wearer, wherein the sandal comprises a foot strap, a toe thong connected to the foot strap, and a sole, wherein the toe thong is configured with a fastener, and wherein the sole comprises an upper sole and a midsole, the method comprising: (i) receiving foot data for the wearer; (ii) determining for the wearer, an optimal toe thong position in respect of a given sandal, based upon the foot data for the wearer; (iii) providing a custom toe thong insert having a plurality of fastener-engagement holes for engagement with the fastener; (iv) embedding the custom toe thong insert within the midsole of the sandal at an insert location; (v) determining an optimal fastener-engagement hole of the plurality of fastener-engagement holes, taking into account the optimal toe thong position; (vi) providing an orifice in the upper sole of the sandal, proximate to the optimal toe thong position; and (vii) inserting the fastener, through the orifice in the upper sole of the sandal, and engaging the fastener with the optimal fastener-engagement hole, thereby fastening the fastener to the custom toe thong insert.
In accordance with another aspect of the present invention, disclosed herein is a method for manufacturing a sandal having a toe thong location that is customised for a wearer or user, wherein the sandal comprises a foot strap, a toe thong connected to the foot strap, and a sole (the sole comprising an upper sole, a midsole and an outsole), the method comprising: (i) acquiring foot data for said wearer; (ii) determining for the wearer, an optimal toe thong position in respect of a given sandal, based upon the foot data for the wearer; (iii) determining a customised location for a hole to be applied to a custom toe thong insert, wherein the custom toe insert is to be embedded in the sandal in an insert location, taking into account the insert location and the optimal toe thong position; (iv) providing a custom toe thong insert with a hole at the customised location; (v) embedding the custom toe thong insert into the insert location within the midsole of the sandal; (vi) providing an orifice in the upper sole of the sandal, proximate to the optimal toe thong position; and (vii) inserting a fastener, attached to the toe thong at one end, through the orifice in the upper sole of the sandal and into the hole of the custom toe thong insert and fastening it to the custom toe thong insert, to form a sandal with a customised toe thong location.
In accordance with another aspect, also disclosed herein is a sandal made using the foregoing methods.
Embodiments of the present invention are described below with reference to the accompanying drawings in which:
The present invention now will be described more fully hereinafter with reference to the accompanying drawing(s), which form a part hereof, and which show, by way of illustration, exemplary embodiments by which the invention may be practiced. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. The following detailed description is, therefore, not to be taken in a limiting sense.
Referring to
The toe thong 25 is provided with a fastener 26 located at the end of the toe thong 25 distal to where the toe thong 25 is attached to the foot strap 16. The fastener 26 may be in the form of a male member which is inserted through a hole in the upper sole 13 and which is configured to be inserted through the hole/compartment 34 to securely engage the custom toe thong insert 31. In one preferred embodiment, the fastener 26 may be in the form of a rotatable plug, which has a larger profile in one direction and a smaller profile in another direction. In one configuration, the plug presents its smaller profile to the hole 34 so that it can be inserted into the hole 34; when the plug is rotated into a “locked” position, it presents its larger profile to the hole 34, thereby securing the fastener 26 (and the attached toe thong 25) to the hole 34 (see also
As mentioned above, the custom toe thong insert 31, and the alternative embodiment of the custom toe thong insert 32, are shown in
For a sandal 10 for which the toe thong location may be customized for a wearer's feet, as a further optional feature, the wearer may be provided with a toe thong key 55 as shown in
The provision of a toe thong key 55 may be used to allow a wearer to exchange one foot strap with another foot strap (e.g. either to replace an old foot strap or to change the design of the sandal's foot strap, or even in the event that a wearer might decide to make her own adjustments to the original toe thong location set during manufacturing of the sandal 10).
This foot data is generally in a digital or digitizable format. This foot data can take various forms. (U.S. patent application Ser. No. 15/309,406, filed Dec. 23, 2016, entitled “Generation of 3D-Printed Custom Wearables”, discloses a possible approach for generating custom wearables based upon inputs involving scanning a body part of the wearer, image processing, machine learning, computer vision, and/or user input). This can simply be a photo or such other image capture of the wearer's bare foot (this could be a photo of the top or bottom of the wearer's foot) that is taken using an image or video capture device or such other computer vision technology, such as a camera, smartphone or such other dedicated equipment. More usefully, the foot data may comprise several photos taken of the wearer's foot from different views/angles. The wearer may be guided to take specific views of the wearer's foot (e.g. a top plan view, a bottom view, a side or front view, etc.). Optionally, the wearer may also be directed to take a photo or photos that include a standard or reference object, in order to facilitate determining the size of the wearer's feet. In a preferred embodiment, a dedicated downloadable software application, mobile app or application program interface (“API”) may be provided to the wearer and installed on the wearer's mobile device (such as a smartphone) in order to instruct and guide the wearer in taking the appropriate views of his foot.
It is also contemplated, however, that suitable foot data may be obtained by the wearer taking multiple photos of his foot from arbitrary views/angles provided these are sufficiently different to provide sufficient detail regarding the 2-dimensional or 3-dimensional geometry, as the case may be, of the wearer's foot; the processing software can be configured to compile the wearer's foot data from such photos, although this introduces additional complexity from a processing standpoint compared to using specified views.
Alternatively, the foot data may be obtained from a video that is taken of the wearer's foot, again preferably from different views, e.g. by the wearer panning the video/image capture device around the foot. In a further alternative, the historical foot data of the wearer's feet (such as medical records from a podiatrist or chiropodist, or other medical professional, etc. or previously obtained photos/videos/x-rays) may also be used as the input for the wearer's foot data.
Once the foot data is obtained, the optimal toe thong position for the wearer in respect of a given sandal is determined using a computer algorithm based on the wearer foot data (step 3). This determination will take into account the shape, size and thickness of the wearer's foot; the size, shape and thickness of the wearer's toes (particularly of the wearer's big toe and second toe); and the natural spacing between the wearer's big toe and second toe, etc. Optionally, this determination can also take into account one or more of the following, namely: (a) the size of the toe thong for the given sandal design; (b) the shape of the toe thong for the given sandal design; (c) the particular design of the given sandal; and (d) the type of material to be used for the toe thong. By way of example, where the design of a particular sandal is such that it has a particularly small toe thong, it may be desirable to make an adjustment to the location of the toe thong away from the actual optimal location, to provide the wearer with slightly better grip for the sandal.
The customised location for a hole (of a specified size) 34 to be applied to a custom toe thong insert 31 is determined (step 4), taking into account where the custom toe thong insert 31 is to be embedded in the sole 12 of the particular sandal 10 (sometimes referred to herein as the “insert location”), and the optimal toe thong position determined from step 3. This allows for the hole 34, when the custom toe thong insert 31 in embedded in the sole 12 of the sandal in its predetermined location, to generally correspond to the optimal toe thong position for the wearer.
A custom toe thong insert 31 with a hole (of a specified size) 34 at the customised location is provided (step 5). The hole 34 is generally round, i.e. circular or oval, although other shapes are possible depending on the form of the fastener 26 that is used to engage with the hole 34 and custom toe thong insert 31. The appropriate size of hole 34 may also depend on the type of fastener 26 used. As shown in
During the assembly/manufacturing of the particular sandal 10 (which generally comprises a sole 12 or sandal bed; a foot strap 16 attached to the sole 12 at a instep side 22 and an outstep side 19; and a toe thong 25 attached to the foot strap 16), the appropriate custom toe thong insert 31 is placed in its predetermined position and embedded within the sole 12 or sandal bed (step 6). As previously illustrated in
Accordingly, the hole 34 is positioned at or proximate to where the base 28 of the toe thong 25 should be located for the wearer.
An orifice is made in the upper sole 13 of the sandal 10, proximate to where the base 28 of the toe thong 25 is to be positioned (step 7)(this also corresponds to the location where the hole 34 in the custom toe thong insert 31 would be located in the assembled sandal 10).
A fastener 26 is provided at the end of the toe thong 25 distal to where the toe thong 25 is attached to the foot strap 16. The fastener 26 is inserted through the orifice in the upper sole 13 of the sandal 10, and into the hole 34 of the custom toe thong insert 31, and securely fastened to the custom toe thong insert 31 (step 8). The base 28 of the toe thong 25 is accordingly positioned at a location corresponding to (or proximate to) the optimal toe thong position.
Assembly of the sandal 10 is completed, as may be necessary. In this fashion, a sandal (or more accurately, one foot of a pair of sandals) with a customised toe thong location is manufactured for the wearer. It is contemplated that in the above described process, it is possible to dispense with step 7 by inserting the fastener 26 directly through the upper sole 13 without first making an orifice therein.
An orifice is punched through the upper sole 13 of the sandal 10, which is proximate to the optimal toe thong position (step 7). This orifice allows access to the appropriate hole or compartment 35 of the custom toe thong insert 32.
Next, the fastener 26 (for example, in the form of a zip-tie or zap-strap) attached to the toe thong 25 at one end thereof, is inserted through the orifice in the upper sole 13 of the sandal, into the hole or compartment of the custom toe thong insert 32 and fastened thereto, to form a sandal 10 with a customised toe thong location.
This patent application claims priority from, and incorporates by reference, the entire disclosures of U.S. Provisional Patent Application No. 62/356,727, filed Jun. 30, 2016 and U.S. Provisional Patent Application No. 62/475,099, filed Mar. 22, 2017.
Filing Document | Filing Date | Country | Kind |
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PCT/CA2017/000166 | 6/30/2017 | WO | 00 |
Number | Date | Country | |
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62475099 | Mar 2017 | US | |
62356727 | Jun 2016 | US |