Any and all priority claims identified in the Application Data Sheet, or any correction thereto, are hereby incorporated by reference under 37 CFR 1.57.
The disclosure relates in general to the field of hosiery and more particularly to socks that have an insert to enhance the fit of shoes on a person's feet.
Finding a shoe that fits properly or comfortably can be a challenge. People are often forced to wear shoes that fit poorly because their feet do not fit within a conventional shoe size. Even when selecting among the best fitting size available for a given shoe style, the shoe may not necessarily fit well or comfortably. For example, a person's feet size may fall in-between shoe sizes. When shoes do not fit properly, the shoes have a tendency to slip off a person's feet. For example, the back portion of a shoe sometimes slips off a person's heel during walking, running, or other types of activity. In addition, the person's feet can move around excessively inside the shoe, resulting in abrasion and sores. There are no known devices that address these issues effectively to improve shoe comfort and fit.
Embodiments of the improved sock address a dilemma many consumers find themselves in whenever their feet size is in-between shoe sizes. Shoe fit and comfort is left desired when a consumer is forced to choose between a shoe that is too tight and a shoe that is oversized. The wearer of an embodiment of the improved sock can achieve this desirable shoe fit and comfort even if the shoe size does not match the wearer's foot size.
In accordance with at least one of the embodiments disclosed herein, the improved sock is for use with an oversized shoe. Similar to a conventional shoe, the oversized shoe has a counter and a topline above the counter. The improved sock compensates for gaps in an oversized shoe, such as the one between the heel of a wearer and the counter, by assisting to push the foot forward in the shoe; in some embodiments, the improved sock can push the foot completely forward in the shoe. The improved sock comprises a toe portion, a foot portion, a heel pocket area, and an upper cuff portion with an opening to receive a foot of a wearer, wherein the foot portion extends from the toe portion to the heel pocket area, and the upper cuff portion is positioned on an end of the sock opposite the toe portion. At least one heel padding is disposed within the heel pocket area, and the combined thickness of the sock and the at least one heel padding can be roughly equal to the gap between the wearer's heel and the shoe counter; and in some embodiments, the thickness can be at least equal to the gap between the wearer's heel and the shoe counter. The at least one heel padding is configured on the sock to be positioned below the shoe topline and push the wearer's foot forward inside the shoe. The heel pocket area is defined as an area of the sock that extends from the base of the wearer's heel bone to approximately the calcaneal insertion of the Achilles tendon when the sock is worn by the wearer.
In some embodiments, the improved sock further comprises a pouch disposed in the heel pocket area for receiving the at least one heel padding. In some embodiments, the at least one heel padding is removably coupled to the sock. In some embodiments, the at least one heel padding wraps partially around the heel pocket area such that the at least one heel padding rests below the wearer's Achilles tendon when the sock is worn by the wearer.
In another embodiment, the improved sock is for use with an oversized shoe. Similar to a conventional shoe, the oversized shoe has a counter and a topline above the counter, wherein the topline defines an opening for receiving a wearer's foot. The improved sock comprises a toe portion, a foot portion, a heel pocket area, and an upper cuff portion with an opening to receive a foot of a wearer, wherein the foot portion extends from the toe portion to the heel pocket area, and the upper cuff portion is positioned on an end of the sock opposite the toe portion. At least one heel padding is disposed within the heel pocket area. The at least one heel padding is configured on the sock to be positioned below the shoe topline and push the wearer's foot forward inside the shoe. The heel pocket area is defined as an area of the sock that extends from the base of the wearer's heel bone to approximately the calcaneal insertion of the Achilles tendon when the sock is worn by the wearer.
In some embodiments, the at least one heel padding is disposed in the top half of the heel pocket area such that the at least one heel padding is positioned to cover a majority of a posterior aspect of the wearer's heel bone when the sock is worn by the wearer. In some embodiments, the at least one heel padding has a short-axis and long-axis, and is symmetrical along at least one of the axes. In some embodiments, the at least one heel padding can conform to a curvature of an interior surface of the counter of the shoe. In some embodiments, the at least one heel padding can extend beyond the heel pocket area so that a superior edge of the at least one heel padding is disposed between the calcaneal insertion of the Achilles tendon and the shoe topline when the sock is worn by the wearer in the shoe. In some embodiments, the at least one heel padding is made of a polyurethane foam. In some embodiments, the at least one heel padding is integrated with the sock. In other embodiments, the at least one heel padding is removably coupled to the sock. In some embodiments, the at least one heel padding is attached with stitch-free or seamless methods.
In some embodiments, the improved sock further comprises a pouch disposed in the heel pocket area for receiving the at least one heel padding and securing the at least one heel padding to the sock. The pouch can be adjustable to receive one or more heel paddings. The pouch can be attached to the sock with stitch-free or seamless methods. In some embodiments, the at least one heel padding can be adjusted within the heel pocket area and positioned to achieve a target orientation for maximizing individual fit and comfort of the wearer.
In some embodiments, the improved sock further comprises marked reinforced sections in the heel pocket area. The marked reinforced sections provide landmarks for the wearer to achieve target orientation of the at least one heel padding on the sock.
In accordance with other embodiments disclosed herein, a sock for use with a shoe having a counter and a topline above the counter is disclosed. The sock can have a toe portion, a foot portion, a heel pocket area, and an upper cuff portion with an opening to receive a foot of a wearer. The foot portion can extend from the toe portion to the heel pocket area and the upper cuff portion can be positioned on an end of the sock opposite the toe portion. In some embodiments, the heel pocket area is defined as an area of the sock that extends from a base of the wearer's heel bone to approximately a calcaneal insertion of the Achilles tendon when the sock is worn by the wearer. A pouch can be disposed in the heel pocket area and can be configured to receive at least one heel padding. The at least one heel padding can be configured to be positioned below the shoe topline and configured to push the wearer's foot forward inside the shoe. The sock can be used with the at least one heel padding in some embodiments, and without the at least one heel padding in other embodiments.
Methods for making the improved sock are disclosed herein. In some embodiments, the method is for making a sock for use with an oversized shoe. The shoe has a counter and a topline above the counter. The topline defines an opening for receiving a wearer's foot. The method, in some embodiments, comprises defining a heel pocket area on the sock for receiving the heel of a wearer such that the heel pocket area extends roughly from the base of the wearer's heel bone to approximately the calcaneal insertion of the Achilles tendon when the sock is worn by the wearer. The method further comprises, providing at least one heel padding that is symmetrical from left and right, and front and back, the at least one heel padding comprising a symmetrical line separating the left and right. The method further comprises defining a target orientation within the heel pocket area for positioning the at least one heel padding to maximize shoe fit and comfort of the wearer. The method further comprises positioning the at least one heel padding within the target orientation and aligning the symmetrical line of the at least one heel padding coincident with the sagittal plane of the foot upon wearing. The method further comprises coupling the at least one heel padding to the sock.
In some embodiments, the at least one heel padding is integrally made with the sock. The method can comprise sewing the at least one heel padding to the sock. In other embodiments, the method comprises adhering the at least one heel padding to the sock. The at least one heel padding can be attached to the sock using a stitch-free or seamless method.
In some embodiments, the method further comprises creating a pouch on the sock within the heel pocket area for receiving the at least one heel padding. The pouch can be positioned to align the at least one heel padding into a target position to cover a majority of a posterior aspect of the wearer's heel bone when the sock is worn by the wearer. The pouch can be attached to the sock using a stitch-free or seamless method. In some embodiments, the method includes placing the at least one heel padding in the pouch and positioning the at least one heel padding on a top half of the heel pocket area such that the symmetrical line of the at least one heel padding is coincident with the sagittal plane of the foot upon wearing.
In some embodiments, the method comprises selecting a material for the at least one heel padding from a selection consisting of polyurethane, cotton, cotton-polyester blend, nylon, vinyl, rubber, leather, satin, or silicone.
Although certain embodiments, features, and examples have been described herein, it will be understood by those skilled in the art that many aspects of the methods and devices illustrated and described in the present disclosure may be differently combined and/or modified to form still further embodiments. For example, any one component of the sock assembly illustrated and described above can be used alone or with other components without departing from the spirit of the present invention. Additionally, it will be recognized that the methods described herein may be practiced in different sequences, and/or with additional devices as desired.
Specific embodiments and modifications thereof will become apparent to those skilled in the art from the detailed description herein having reference to the figures that follow, of which:
Socks with heel padding, described herein, can improve the fit of shoes on a person's feet. The wearer of an embodiment of these improved socks can have an improved shoe fit without having to resort to uncomfortable options.
Many consumers find themselves in-between shoe sizes, such as when one particular size of shoe is too tight yet the next available shoe size is slightly too large. Retrofitting a slightly oversized shoe by stuffing the toe portion with various materials or by attempting to wear double or thicker socks are not ideal solutions and may in fact lower the overall level of comfort for the consumer. From a retail perspective, consumers would worry less about purchasing a shoe that does not fit well if they had socks with heel padding. For example, caregivers of children and adolescents may take a keen interest in this sock concept as this population experiences a high turnover of shoes from growth spurts. Also, individuals with a prior inventory of slightly oversized shoes may be able to take advantage of the improved fit afforded by using embodiments of socks with heel padding.
A person can wear an embodiment of the improved sock in a manner similar to that used when wearing any other kind of sock. A person can pull on an individual sock onto the desired foot and make any adjustments necessary to maximize comfort prior to inserting the outfitted foot into a respective shoe. When the person wears the device in a shoe, his/her foot can be positioned slightly forward in the shoe. Additionally, the medial and lateral sides of the heel can be supported against the sides of the shoe. The positioning of the foot anteriorly in the shoe can be attributed to the cushioning provided by the heel padding and the minimizing of any potential gap between the wearer's heel and the shoe counter.
A sock having desirable features and advantages will now be described with reference to the figures. Although the following description is provided in the context of an exemplifying sock with heel padding, the features of the present sock can provide advantages in other applications as well, for example stockings, gloves, helmets, etc.
The illustration in
An embodiment of the improved sock is shown in
The final manufactured product preferably will have the heel padding 14 affixed at a desired location as described above. However, it can be possible that the wearer may wear the sock with the heel padding 14 in an improper position on the foot. To help avoid this situation, the heel padding 14 can be manually adjusted by the wearer into a target position to cover the majority of the posterior aspect and portions of the medial and lateral aspects of the heel bone 2 of the foot, as illustrated in
In some embodiments of the sock assembly, the heel padding 14 can be permanently attached to the sock by any method now known or discovered in the future, such as sewing, hook and loop fasteners, snaps, adhesives, Velcro, bonding fabric, fusible web or other fusible materials, thermoplastic films, tapes etc. In embodiments where the heel padding 14 is sewn to the sock, a plurality of different types of thread and a plurality of different types of stitching can be used. Some embodiments can use stitch-free or seamless technology, where the heel padding 14 can be adhered to the sock using fabric welding techniques that can employ heat and pressure, such as by ultrasonic heating, high frequency radiation, or using thermoplastic film. Stitch-free or seamless technology can advantageously provide a smooth feel to the sock assembly when worn on the foot, which can be more comfortable because of reduced chafing or rubbing against the foot. Other advantages of the stitch-free or seamless technology can include reduced weight, improved aesthetics and shorter manufacturing time. The heel padding 14 can be coupled to the exterior of the sock or coupled to the interior of the sock. In some embodiments, the heel padding 14 can be an integrated component of the sock, such as for example where the heel padding 14 is embedded in the sock.
The heel padding 14 can have a generally elliptical or ovular shape with opposing ends tapering to generally a point, as shown in
It should be noted that the heel padding 14, as shown in
In other embodiments, alternative shapes of the heel padding 14, with or without lines of symmetry, are also contemplated. The overall dimensions of the heel padding 14 can vary taking into account the size of the final manufactured product (e.g., a smaller padding member reserved for socks worn by children and a larger padding member reserved for socks worn by adults). The thickness of the heel padding 14 can be at least approximately 0.125 inch (⅛ inch) and/or less than or equal to approximately 0.375 inch (⅜ inch), although other thicknesses are contemplated as well.
The material of the heel padding 14 can be made of a flexible and durable material such as polyurethane foam. However, use of other materials such as cotton, cotton-polyester blends, nylon, vinyl, rubber, leather, satin, suede, gel, silicone, fluid-filled material, Lycra, Spandex, or any other natural or synthetic textile material is also contemplated.
Although the sock assembly illustrated in
At least some of the benefits of the improved sock disclosed herein can be understood by examining the fit of a conventional sock compared to the fit of an embodiment of a sock with heel padding 14 on a foot of an individual wearing an oversized shoe. When wearing a conventional sock, the wearer must first position the conventional sock onto the desired foot and ensure that the toe area and heel pocket area of the sock adequately cover the respective areas of the foot. It may be necessary for the wearer to manually adjust the conventional sock onto the foot to maximize comfort. For example, excessive bunching or gathering of sock material in any one particular area can be minimized by pulling the sock up to obtain the best possible fit for the wearer's foot. This process of wearing the conventional sock into the ideal wearing position can be facilitated by using the reinforced sections of the toe area and heel pocket area, if present, as landmarks. It should be noted that the presence of these landmarks is optional since not all commercially available socks include this feature. After a suitable sock position on the foot is achieved, the wearer can then insert the outfitted foot into a respective shoe. It should be noted that the wearer can adjust or flex the various segments of his/her foot (e.g., forefoot, midfoot, and hindfoot) and ankle inside the shoe to ensure a comfortable resting position. When the wearer pushes his/her outfitted foot forward such that the toe area of the sock is in the proper position in the shoe, a gap 18 can be exposed between the rear of the conventional sock and the shoe counter 16, as shown in
When an individual wears an embodiment of the sock with heel padding 14, the wearer can position the sock with heel padding 14 into the target position allowing the heel padding 14 to cover a majority of the posterior aspect and portions of the medial and lateral aspects of the heel of the foot. As stated above, the wearer can make use of landmarks provided by the reinforced sections of the toe area 10 and heel pocket area 12 of the sock, if present. The presence of these landmarks is optional. After the desired positioning of the sock with heel padding 14 is achieved around the wearer's foot, the wearer can insert his/her outfitted foot into the respective shoe. As before, the wearer can adjust or flex the various segments of his/her foot (e.g., forefoot, midfoot, and hindfoot) and ankle inside the shoe to ensure a comfortable resting position. After pushing his/her outfitted foot forward such that the toe area 10 of the sock is in the proper position in the shoe, a reduced gap 18b between the rear of the wearer's foot and the shoe counter 16 can be exposed, as illustrated in
An alternative embodiment of the sock assembly is shown in
In some embodiments, the pouch 30 can be permanently attached to the rear area of the sock by any method now known or discovered in the future, such as sewing, hook and loop fasteners, snaps, adhesives, Velcro, bonding fabric, fusible web or other fusible materials, thermoplastic films, tapes etc. In embodiments where the pouch 30 is sewn to the sock, a plurality of different types of thread and a plurality of different types of stitching can be used. Some embodiments can use stitch-free or seamless technology, where the pouch 30 can be adhered to the sock using fabric welding techniques that can employ heat and pressure, such as by ultrasonic heating, high frequency radiation, or using thermoplastic film. The pouch 30 can be coupled to the exterior of the sock or coupled to the interior of the sock. When worn, the sock with heel padding 14b in its respective pouch 30 can provide adequate coverage of the rear of the foot as shown in
In some embodiments, the heel padding 14b can have a shape and dimensions similar to that disclosed for the first embodiment of the heel padding 14 discussed above. The pouch 30 can have an overall shape similar to its heel padding 14b counterpart. The pouch 30 can also have a point of entry to allow for insertion of the heel padding 14b. Preferably, the pouch 30 does not include a backing liner, although the inclusion of a liner made of any suitable natural or synthetic textile material can be allowable.
A point of entry 32 can be located on the superior margin of the pouch 30 to allow for insertion of the heel padding 14b from the top after wearing the sock (
Similarly, other shapes for the heel padding 14b are contemplated that can be easily inserted into the pouch 30 by the wearer. Although the axes of symmetry as described above can be advantageous from a manufacturing perspective, some embodiments of the pouch 30 and of the heel padding 14b need not possess axes of symmetry. The overall dimensions of the heel padding 14b with associated pouch 30 can vary taking into account the size of the final manufactured product (e.g., a smaller padding member and pouch combination reserved for socks worn by children and a larger padding member and pouch combination reserved for socks worn by adults). The thickness of the heel padding 14b can be at least approximately 0.125 inch (⅛ inch) and/or less than or equal to approximately 0.375 inch (⅜ inch), although other thicknesses are also contemplated. The thickness of the pouch 30 can be at least approximately 0.125 inch (⅛ inch) and/or less than or equal to approximately 0.25 inch (¼ inch), although other thicknesses are also contemplated.
In some embodiments, the final manufactured product can be offered to consumers in packaging containing multiple heel paddings 14b of varying thicknesses (e.g., ⅛ inch, ¼ inch, and ⅜ inch thickness presentations) to allow the wearer the added flexibility to further customize the level of cushioning required to obtain the best shoe fit. A wearer can elect to use a single, none, or any other combination of heel paddings 14b for insertion into the pouch 30. In some embodiments, the cushioning of the sock assembly for the left foot can be customized differently from the cushioning of the sock assembly for the right foot. For example, one sock assembly can be worn with no heel padding, while the other sock assembly can have one, two, or any other combination of heel padding. This opportunity to customize the fitting for each foot separately can be especially advantageous for an individual with mis-matched feet, as the size of one foot may not necessarily be the same size as the other foot. In some embodiments, the point of entry 32 on the pouch 30 can be closed, such as by the use of zippers, hooks, buttons, fasteners, snaps, or other closure devices.
The material of the heel padding 14b of at least this alternative embodiment can be made of a flexible and durable material such as polyurethane foam. However, the use of other materials such as cotton, cotton-polyester blends, nylon, vinyl, rubber, leather, satin, suede, gel, silicone, fluid-filled material, Lycra, Spandex, plastic or any other natural or synthetic textile material are also contemplated. The pouch 30 can be made of various natural or synthetic textile materials, such as plastic, rubber, Lycra, Spandex, stretch fabrics, mesh, or other suitable material that would be able to accommodate one or more removable heel paddings 14b.
The sock illustrated in
Another embodiment of the sock assembly is shown in
In some embodiments of the sock assembly, the heel padding 14c can be permanently attached to the sock by any method now known or discovered in the future, such as sewing, hook and loop fasteners, snaps, adhesives, Velcro, bonding fabric, fusible web or other fusible materials, thermoplastic films, tapes etc. In embodiments where the heel padding 14c is sewn to the sock, a plurality of different types of thread and a plurality of different types of stitching can be used. Some embodiments can use stitch-free or seamless technology, where the heel padding 14c can be adhered to the sock using fabric welding techniques that can employ heat and pressure, such as by ultrasonic heating, high frequency radiation, or using thermoplastic film. The heel padding 14c can be coupled to the exterior of the sock or coupled to the interior of the sock. In some embodiments, the heel padding 14c can be an integrated component of the sock, such as for example where the heel padding 14c is embedded in the sock.
In some embodiments, the heel padding 14c can have a generally four-sided shape with two straight edges and two curved edges, as shown in
In some embodiments, the material of the heel padding 14c can be made of a flexible and durable material such as polyurethane foam. In other embodiments, the material can include other materials such as cotton, cotton-polyester blends, nylon, vinyl, rubber, leather, satin, suede, gel, silicone, fluid-filled material, Lycra, Spandex, or any other natural or synthetic textile material.
The sock illustrated in
In some embodiments, the length of the line of symmetry 26 can be at least approximately 1 inch and/or less than or equal to approximately 3 inches in length. In other embodiments, the length of the line of symmetry 26 can be any other dimension. Alternative shapes are also contemplated and need not possess an axis or axes of symmetry. The overall dimensions of the heel paddings can vary taking into account the size of the final manufactured product (e.g., a smaller padding member reserved for socks worn by children and a larger padding member reserved for socks worn by adults). The thickness of the heel paddings can be at least approximately 0.125 inch (⅛ inch) and/or less than or equal to approximately 0.375 inch (⅜ inch), although other dimensions are also contemplated. Similar to above embodiments, the material of the heel paddings can be made of a flexible and durable material such as polyurethane foam. In other embodiments, the material can include other materials such as cotton, cotton-polyester blends, nylon, vinyl, rubber, leather, satin, suede, gel, silicone, fluid-filled material, Lycra, Spandex, or any other natural or synthetic textile material.
Although certain embodiments, features, and examples have been described herein, it will be understood by those skilled in the art that many aspects of the methods and devices illustrated and described in the present disclosure may be differently combined and/or modified to form still further embodiments. For example, any one component of the sock assembly illustrated and described above can be used alone or with other components without departing from the spirit of the present invention. Additionally, it will be recognized that the methods described herein may be practiced in different sequences, and/or with additional devices as desired. Such alternative embodiments and/or uses of the methods and devices described above and obvious modifications and equivalents thereof are intended to be included within the scope of the present invention. Thus, it is intended that the scope of the present invention should not be limited by the particular embodiments described above, but should be determined only by a fair reading of the claims that follow.
Number | Date | Country | |
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61407446 | Oct 2010 | US |
Number | Date | Country | |
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Parent | PCT/US2011/057901 | Oct 2011 | US |
Child | 13868757 | US |
Number | Date | Country | |
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Parent | 13034529 | Feb 2011 | US |
Child | PCT/US2011/057901 | US |