Adhering Boot Shaper Device

Abstract

The invention provides an improved boot support and shaping insert system to keep boots attached together in an upright position when not being worn. The system includes an elongated curved shaper mirroring the natural tapered silhouette of the lower leg. The system self-adjusts to adopt the shape and fill the cavity of the boot without applying pressure that causes the boot to stretch. The system's snug fit supports the weight of the boot when inserted and allows a convenient means to carry and transport the boots. A portion of the system protrudes when inserted in a boot; this section has a handle facilitating manipulation, insertion, removal and transport. The protruding section is also fitted with visibility identifiers to diminish the risk of tripping hazard by increasing the boot's visibility. The system includes a mechanism allowing a pair of shapers to adhere to each other as a system or remain detached.

Description

BACKGROUND OF THE INVENTION

The present invention relates to an improved adhering boot holder, shaper and carrier device for storage, maintenance, cleaning, and display of legged boots.

Boot shapers have long been known and used to preserve the form of the boot especially the flexible legged and ankle portion, to prevent creasing or damage and to protect the boot from dirt and salt when not worn and during storage. Boots tend to fall over, scatter and separate especially when grouped with other pairs of boots, for example at gatherings where it is expected that boots be removed before entering the premises. Unorganized boots render it difficult to find and match a pair of boots upon leaving the premises and poses a safety hazard as it is easy to trip over them. Boot shapers have been around since the start of 20^th century and are typically designed to hold the boots in an upright position or in a manner which supports them and prevents them from collapsing and tilting, which causes creasing and damage. The term “boot shaper” is commonly used in the trade because of the function accomplished by the device.

Previous attempts to eliminate the damage caused by creasing were made using clamps to hold the top of the boots together, for example U.S. Pat. No. 3,747,774 and U.S. Pat. No. 4,953,715 and international patents such as Canada Pat. No. 1,176,606; Japan Pat. No. 2,006,325,677 and Japan Pat. No. 2,005,252,572. This method often marks the boots and flattens the material where the clamps are applied.

Similar troubles are noted with the reversed “U” shaped apparatus where the inserted tongues of the device flatten and sometimes indent the material where the pressure is applied to hold the boots together as depicted in U.S. Pat. No. 4,238,865 and international patents like Canada Pat. No. 1,107,483; Australia Pat. No. 2,010,101,150; WIPO Pat. No. 2,009,128,165; China Pat. No. 201,894,246; China Pat. No. 201,097,941; Japan Pat. No. 2,005,329,146; Japan Pat. No. 2,010,253,228. These devices require that both boots be engaged in the reversed “U” members to avoid their collapse and is not suitable for shorter ankle boots. The proximity of the boots held in such a support does not allow adequate space for cleaning and polishing during boot maintenance.

Inflatable sock like, rolled inflatable and rigid sheets and folding devices have also been developed to prevent boots from collapsing. Although these lightweight devices are successful in shaping the individual boot, they do not retain the pair of boots together and do not assure that the boots will stay upright and often tilt to one side. See U.S. Pat. No. 4,400,840; Japan Pat. No. 2,008,253,723; Japan Pat. No. 2,005,046,575; Japan Pat. No. 2,010,154,948. It is necessary to rely on balancing the boot or resting it on a surface to prevent it from falling over and incurring damage from the environment it falls into. This practice is not satisfactory as the boots do not tend to stay in the upright position and can flatten on the side of the boot which ends up resting on the floor. Additionally, inflatable devices can puncture and have sometimes proven to be difficult to insert and remove from the legged part of the boot. The rolled rigid sheets are also known to slide out of the shorter boots due to their silky finish properties.

Mechanical expansion devices can stretch the calves of a small and narrow boot, they are more costly and again, like many other designs , do not keep the boots together nor do they ensure the boot will stand upright as they are inserted individually in the boot and must rely on balancing the boot to remain upright, e.g. U.S. Pat. No. 6,622,331; U.S. Pat. No. 4,254,524 and Japan Pat. No. 2,011,200,314; Japan Pat. No. 2,003,159,102; China Pat. No. 201,219,566; China Pat. No.200,941,863; China Pat. No. 2,744,204. Narrow and short legged boots may not allow the mechanical device to fully deploy and be rendered non-effective.

Shaped insert type solutions are successful shape keepers and offer boot support but they lack the capability to keep the pair of boots attached together and must rely on balancing or resting the boot on a surface to remain upright. Devices such as U.S. Pat. No. 3,681,804; U.S. Pat. No. 4,223,416; U.S. Pat. No. 2,270,936; U.S. Pat. No. 3,041,643 and Japan Pat. No. 2,005,006,915; Japan Pat. No. 2,006,230,878; UK Pat. No. 2,252,487. These devices are typically not suitable for short ankle boots as the shaped insert cannot be properly inserted and used on short boots. Fixed circumference shaped devices may also prove to be difficult to insert and remove and can stretch narrow legged boots.

Ankle support systems do keep the boots balanced and steady but they do not secure the upper part of the boot, hence allowing the boot to tilt, fold, collapse and crease.

BRIEF SUMMARY OF THE INVENTION

The present invention solves many of the listed issues mentioned above by providing an improved boot support and shaping insert system which prevents collapsing or tilting which causes creasing and damage, by keeping boots attached together in a secure upright position when not being worn or while on display or during storage. Scattered boots pose a dangerous tripping hazard; organized boots set up in an upright configuration are more visible and lessen the risk of accidents.

In one embodiment, the boot shaper device of the present invention has an elongated curved shape that mirrors the natural tapered silhouette of the lower leg, calf and ankle with a bevelled bottom. The shaper has a self adjusting section that fills the entire cavity of the legged boot when inserted, offering maximum support at the ankle and calf area without applying pressure that would otherwise cause stretching of the upper part of the boot material. This function prevents creasing and damage to the boot. The present method of shaping and supporting a legged boot is a welcome improvement to clamp like devices which can mark and indent the boots. The fitted shaper also solves the issue of the silky plastic shaper devices, inflatable or rolled sheet type devices, that simply slide or unravel out of boots due to their slippery smooth finish, leaving the boot unprotected and unsupported. The present invention can also be fitted with a self adjusting foldable section to accommodate wider legged boots and men's boots.

Preferably, a section of the present boot shaper invention protrudes when inserted in legged boots, allowing the user to manipulate the device without having to reach inside the boot like previous devices mentioned above.

Preferably, the boot shaper can be enveloped inside a decorative smooth shell which eases the insertion and removal of the insert. The shell also helps identify and distinguish a pair of boots when many pairs of boots are grouped together, e.g. in environments where it is expected that boots be removed before entering.

Preferably, the present boot shapers can be fitted with an adhering or self adhering mechanism on the inner-upper side allowing a pair of the present shaper invention to remain attached in a parallel fashion to each other as a system in an upstanding configuration during storage and display; or to remain detached inside the boot if desired, facilitating individual boot shaper insertion and removal, boot cleaning, polishing and maintenance. The protruding section of the inserted boot shapers is where the linking connection between both members of the boot shaper devices is made. This feature helps eliminate the need to balance individual boots as with previous boot shaper devices mentioned above.

Preferably, the top surfaces of the present shaper device can include a handle or strap to ease insertion and removal of the inserts into the boots and to facilitate convenient carry of boots with the shaper inserted.

Preferably, the bevelled bottom ends can mimic the shape of a heel and are adorned with weighted elements which add stability to the present shaper invention when inserted in a boot. The weighted elements also help seal the edges of the shell that envelops the boot shaper device. In this embodiment, when inserted, the boot shaper device rests on the sole of the boot's heel.

Preferably, safety enhancing elements by means of visible identifiers can be attached on the upper outer sides of the present shaper invention and can be seen when inserted in the boot. These visible identifier elements diminish the tripping hazard of boots left in high traffic areas and low ambient light environments such as lobbies, hallways, entrances and split-level entrances by attracting the eye to the boot shaper inside the boots. Safety enhancing elements may have one or a combination of features, including but not limited to: phosphorescence, fluorescents or reflective properties, bright colours, floral designs or the like. The safely enhancing element also contributes to the uniqueness of the boot shaper inserts, allowing faster recognition of a pair of boots among many others.

Preferably, the front shin section (element) and the upper top of the present invention is relatively rigid and the back portion is sufficiently thick yet soft enough to compress and conform to the shape of the legged boot and fill the inside portion of the legged boot keeping it in an erect position without applying pressure that would otherwise cause stretching of the upper part of the boot material. Once inserted, a snug fit ensures adequate friction between the boot and the shaper insert to allow the boot shaper to serve as a means to carry and transport the legged boots.

The present boot shaper invention device is scalable and can be adapted to shape, support, transport and increase visibility to reduce tripping hazards for all boots including children boots, men's boots as well as all heights of ladies legged boots.

BRIEF DESCRIPTION OF FIGURES

An embodiment of the invention is now described by way of example only with reference to the accompanying drawings, in which:

FIG. 1 is a side view of the outer side of a single boot shaper device inserted in a legged boot according to at least one embodiment of the present invention;

FIG. 2 is a transparency side perspective view of the outer side of the boot shaper device according to at least one embodiment of the present invention;

FIG. 3 a, FIG. 3b and FIG. 3c are front aerial perspective views of two boot shapers devices according to at least one embodiment of the present invention. The boot shapers are inserted in legged boots while attached by example adhering and self adhering means. FIG. 3b and FIG. 3c are truncated at mid-calf length;

FIG. 4 is a perspective side view of the preferred rigid component of the boot shaper device according to at least one embodiment of the present invention;

FIG. 5 is a top view of the boot shaper device according to at least one embodiment of the present invention; and,

FIG. 6 is a perspective inner side view of a boot shaper device inserted in a legged boot according to at least one embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

Various aspects of the invention are presented in FIG. 1 though FIG. 6 which are not drawn to scale and in which like components are numbered alike. Some drawings show the device inserted in boots. The boots are for illustrative purposes only.

FIG. 1 depicts the boot shaper device 1 inserted in a legged boot. In a preferred embodiment, its elongated curved shape mimics the natural tapered silhouette of a lower leg, calf 7 and ankle 8. The insert compresses and molds itself to adopt the shape of the boot. Conforming to the shape of the boot allows maximum support and stability in the ankle portion and allows the boot shaper device to take on the weight burden of the material in the legged portion of the boot. The shaper is inserted all the way inside the boot cavity with the insert's bevelled heel 4 resting at the base of the boot's heel. The bottom base is adorned with a weighted element 5, which adds stability when inserted in the boot and helps seal the edges of the boot shaper device's enveloping shell element. The outer shell 3 composed of a soft material, for example fabric, flexible plastic, polyurethane, covers the entity of the boot shaper device, confining all the components within and securing them in place. The outer shell helps reduces friction and facilitates ease of insertion and removal of the device. The visibility identifiers and safety enhancing elements 6 are attached to the shell on the upper outside portion of the boot shaper device. Their eye catching features help reduce the risk of tripping on boots left in high traffic areas or low lighting environments. The shell and the visibility identifiers and safety enhancing elements are also a means of rapid identification. Inserted in boots, boot shaper devices stand out and allow the user to immediately spot and recognize a pair of boots among many other boots. The handle/strap 2 located on top of the boot shaper facilitates the manipulation of the device during insertion and removal and facilitates carrying the boots during transportation. In a preferred embodiment, when inserted in legged boots, the boot shaper device protrudes exposing the upper part of the outer shell, the visibility identifiers and safety enhancing elements, the handle and the adhering or self adhering mechanism means.

The transparency perspective view in FIG. 2 illustrates the different structures of the boot shaper. The semi rigid components 9, can be made of polyurethane or plastic, wood or metal or some other resilient material. The semi rigid components 9, occupy the shin and knee portion of the boot when inserted in a legged boot. The semi rigid portions of the boot shaper act as a spine for the device and helps keep its elongated shape. It provides support to the device by allowing it to be manipulated, inserted and removed from boots without bending or breaking. It allows the device to stand whether inserted or not in legged boots and to bear the weight of the legged portion of the boot when inserted. The upper part of the semi rigid element protrudes when inserted in the legged boot.

The tapered calf and ankle portions are comprised of a soft compressible component 10 that is shaped to mirror the back of a leg. This section of the boot shaper is designed to deform and self adjust to adapt its shape by compressing itself to conform to the figure the legged boot when inserted without applying pressure that would otherwise cause stretching of the upper part of the boot material. For example, the soft component could be stuffing, memory retention polyurethane or fabric. The semi rigid and soft components are confined and secured in place inside an outer shell 3. Unlike previous reversed “U” boot shaper devices, the present boot shaper invention occupies the entire leg cavity of the boot once inserted, offering superior structural support to the ankle and legged portion of the boot and thus allowing the boot shaper device to bear the weight of the upper part of the boot. The present device also keeps individual boots in an upright configuration.

Alternative boot holder adhering or self adhering mechanisms are illustrated in FIG. 3a through FIG. 3c. The adhering or self adhering mechanism is an improvement to other boot shapers wherein the shaper provides each boot with support to stand upright but adds extra stability to the upright configuration when both boot shaping devices are adhered to one another. The user will appreciate the shapers ability to support the individual boot during cleaning, drying, polishing and maintenance and then choose to attach the pair of shapers together to securely store or display paired boots in a stable upright position. Attaching both members of the boot shaper device also facilitates storage when not inserted in boots as they can be suspended or stowed away together without losing a member. Means of adhering or self adhering mechanism permit individual boot shaper device members to be held together in a longitudinal parallel fashion. The attached parallel configuration maximizes the boot shapers ability to support, keep as a pair and transport boots. Adhering or self adhering mechanism can be, for example, one or a combination of methods attached to the inside or outside shell element of the boot shaper, but not limited to: tabs or flaps attached to the inserts, magnets 11a, a button and buttonhole 11b, hook-and-loop fastener (Velcro), a clasp, a strip or a band of ribbon 11c.

The boot shaper's semi rigid component is isolated in FIG. 4 to best illustrate the particularities of its shape. The top portion 14 is cut in a rounded fashion, to mimic the curves of a knee. A portion of this top section will protrude when inserted in a boot. Its shape is also designed to fill the top portion of the legged boot. The slim rounded shaft 13 is positioned at the forefront of the device. It runs the length of the boot shaper and gives it the support needed to stand upright and to bear the weight of the legged boot.

FIG. 5 provides a top view of the device and depicts the centered position of the handle 2, the adhering of self adhering means 11a secured to the upper inner side of the boot shaper and the visibility identifiers and safety enhancing elements 6 attached on the upper outside portion of the device. The visibility identifiers and safety enhancing elements help reduce the risk of tripping on boots left in high traffic areas and/or low lighting environments. Visibility identifiers and safety enhancing elements increase visibility and awareness by attracting the eye to the potential obstacle and helps identify the position of the boots in the environment. Visibility identifiers and safety enhancing means may have one or a combination of but not limited to: phosphorescence, fluorescents, reflective properties, bright colours etc. The visibility identifiers and safely enhancing elements contribute to the uniqueness of the boot shaper inserts, allowing faster recognition of a pair of boots among many other pairs of boots.

Reinforced material 12, such as a patch, may be attached to the shell or to the interior of the boot shaper shell to add resistance to the attached adhering or self adhering mechanism 11a as shown in FIG. 6. As the boot shaper device work as a system to keep boots in an upright configuration, stress may be applied to the point of attachment of the adhering or self adhering means. Adding a reinforcing membrane or material to the shell allows for a more secure connection when both members of the boot shaper device are engaged together.

The presently disclosed embodiments are considered in all respects to be illustrative and not restrictive. The scope of the claims should not be limited by the embodiments set forth in the examples, but should be given the broadest interpretation consistent with the description as a whole.

The above described embodiments are by way of example only; various other constructions are possible within the scope of the invention as defined by the appended claims.

Claims

1. A boot shaper comprising: A first elliptical end and a second elliptical end;A front surface extending longitudinally between the first end and the second end in a straight manner, the front surface having a first longitudinal edge and a second longitudinal edge, the front surface being curved about a longitudinal axis;A rear surface extending longitudinally between the first end and the second end in a curved manner, the rear surface having a first longitudinal edge and a second longitudinal edge, the rear surface curved about a longitudinal axis;A first side extending longitudinally from the first end to the second end, the first side smoothly and continuously connecting the first longitudinal edge of the front surface to the first longitudinal edge of the rear surface; andA second side extending longitudinally from the first end to the second end, the second side smoothly and continuously connecting the second longitudinal edge of the front surface to the second longitudinal edge of the rear surface.

2. The boot shaper of claim 1 wherein the front surface is semi rigid.

3. The boot shaper of claim 1 wherein at least a portion of the rear surface is compressible such that the entire cavity of the boot is filled by the boot shaper.

4. The boot shaper of claim 1 wherein the front surface is semi rigid and at least a portion of the rear surface is compressible.

5. The boot shaper of claim 1 wherein the curved rear surface is comprised of multiple arcs of varying radii.

6. The boot shaper of claim 3 wherein at least a portion of the rear surface contains a foldable section that can be released to expand the diameter of the boot shaper.

7. The boot shaper of claim 1 wherein the boot shaper is enveloped in a smooth shell made of a fabric material.

8. The boot shaper of claim 1 wherein the second end is designed to protrude from the opening of the boot when the boot shaper is placed in the boot.

9. The boot shaper of claim 8 wherein at least one of the first side and the second side further comprises a means to adhere to a second boot shaper.

10. The boot shaper of claim 9 wherein the interface between the means to adhere and at least one of the first side and the second side is reinforced with a reinforcing material.

11. The boot shaper of claim 1 wherein at least one of the first end and the second end further comprises a handle.

12. The boot shaper of claim 1 further comprising at least one resilient perimeter rim extending about and adjacent to at least one of the first end and the second end.

13. The boot shaper of claim 1 wherein the first end is beveled such that it is oriented at an obtuse angle relative to the second end.

14. The boot shaper of claim 1 further comprising a weight adhered to the first end.

15. The boot shaper of claim 1 wherein at least one of the first end and the second end further comprises visual identifier elements.