SK113398A3 - A footwear having a deformable insole suitable for adapting itself to the wearer's foot-sole shape - Google Patents

Abstract

Footwear with uppers (A) and a lower support part (1) for the wearer's foot connected to the aforementioned uppers, said part (1) consisting of a sole (2) on which a wedge (3) is placed, accommodating at least one internal insole (6) or midsole that comes into contact with the wearer's foot; means that yield under the wearer's weight are incorporated beneath at least part of the insole in the support part (1), these means allowing deformation of the insole such that the latter permanently takes on the specific shape of the foot sole of the person wearing the shoe.

Description

Footwear with a deformable insole suitable to adapt to the shape of the user's foot

Technical field

The present invention relates to a type of shoe with a deformable insole suitable for adapting to the shape of a user's foot.

BACKGROUND OF THE INVENTION

It is known that the human foot has a shape that varies from individual to individual. It has also been known for a long time that the more shoes (such as "walking shoes") have anatomically shaped insoles, the more comfortable and stable the shoes are when the shoe hits the surface, preventing microtrauma (at the bone or muscle level) of the wearer, especially those caused by prolonged use.

Footwear (or shoes) having anatomically shaped insoles has long been known; however, precisely because the shape of the foot varies from person to person, this insole has a vague anatomical conformation, i.e. it is generally designed to conform to the ready-made foot of the ready-to-wear user. In other words, the anatomical insoles on the market are shaped so that they only partially adapt to the shape of each user's foot. As a result, the known anatomical footwear is often not without obvious drawbacks that cause considerable leg fatigue, especially after prolonged wearing.

Footwear whose insoles deform continuously but not permanently under the weight of the wearer and thereby adapt to the shape of their foot is generally known. After use, the inner bottom returns to its initial configuration. However, these solutions do not offer adequate comfort, bring relatively high production costs and are mainly used in footwear with special properties, such as clogs.

In addition, these shoes lose their ability to adapt to the shape of the foot over time and use.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide anatomical footwear improved over known solutions.

In particular, it is an object of the present invention to provide a self-modeling anatomical footwear where the insole adapts perfectly and permanently to the foot shape of a specific user.

A further object is to provide a shoe of the above-mentioned type, which has low manufacturing costs and offers suitable foot stability when placed on the surface under any conditions of use, thereby preventing microtrauma of the user's lower limbs.

It is a further object of the present invention to provide a shoe of the above type which, by virtue of its anatomical nature, allows suitable compensation for incorrect foot impacts to the surface.

These and other objects, which will be apparent to those skilled in the art, are achieved by the footwear of the appended claims.

The footwear according to the invention may be either a walking or sports shoe. In the latter case, it may be provided with known means capable of absorbing impact on the surface and at the same time returning the maximum amount of absorbed energy to the wearer's leg, essentially as a spring providing a back spring.

BRIEF DESCRIPTION OF THE DRAWINGS

In the interest of a better understanding of the present invention, by way of example only and in no way as a limitation, the following drawings are attached in which:

Fig. 1 is an exploded perspective view of a shoe according to the present invention;

Fig. 2 is a bottom perspective view of a portion of the shoe of FIG. 1;

Fig. 3 is a cross-sectional view along line 3-3 of FIG. 3 but with the complete shoe;

Fig. 4 is a cross-section along line 4-4 in FIG. 3;

Fig. 5 is a partially expanded perspective view of the shoe variant of FIG. First

DETAILED DESCRIPTION OF THE INVENTION

Referring to Figures 1 to 4, the sports shoe of the present invention includes an upper and a lower basal or support portion 1. This includes a bottom 2, for example of synthetic rubber, into which a wedge 3 made of known porous materials (ethyl vinyl acetate - EVA) ) or low density polyurethane or rubber. The wedge has an upper recess 4 (referring to Fig. 1) bounded by an overlapping edge 4A, where a carrier insole 5 made of cork, for example, can be located. A further insole 6, which is made, for example, of a fabric (not shown in Fig. 3) and on which the user's foot rests, can be placed on top of the insole 5. The insole 2 has a known serration 8 or a portion thereof.

According to the invention, the insole or intermediate bed 6 on which the user's foot rests is permanently deformable after the shoe has been worn at least once. This deformation reflects the shape of the foot, so it adapts to it. In this way, the insole 6 assumes an anatomical form corresponding to the foot of the user's foot.

The insole deformation is preferably achieved by ensuring that it rests directly or indirectly on the base layer of the soft material preferably bonded to the wedge 3. This insole may be deformable over its entire surface or only with respect to particular zones.

Referring to the above figures, to achieve the aforementioned deformation, the shoe is provided with a wedge 3 at the bottom with a cavity 10 (separated from the recess 4 by a layer 10A integral with the wedge and characterized by separate elasticity) facing the sole 2 and containing a grained layer with grains of size preferably between 0.7 and 4 mm depending on the type of footwear. This layer can be made of synthetic or natural materials. These may be, for example, granular ethyl vinyl acetate (EVA), granular rubber (synthetic or natural), cork or expanded materials in granular form. Alternatively, the granular layer 11 may be a mixture of such materials, for example located in different zones of the cavity 10: in this case, since the above materials have different deformability, the layer 11 is obtained with different compliance under user weight in different areas corresponding to different areas of the user's foot. In this way, due to the action of the lower portion 1, it is possible to provide support to the user's foot differently, for example according to the type of shoe (walking or sports).

Since the user's weight acts differently on the carrier part 1 and basically acts on the zone corresponding to the heel (designated K in Figure 3), here the layer 10 is thicker than in the pre-void zone (marked M in Figure 3).

Alternatively, to allow deformation of the insole 6 (and possibly 5 below it), layer 10 may be further subdivided into several non-communicating zones: for example, in relation to the foot arch zone (indicated by P in Figure 3), a granular layer is provided to provide the user with a semi-hard support vaults (since the wedge 3 is itself at least partially soft).

During use, therefore, the layer 11 recedes under the weight of the user. This compliance allows for a corresponding deformation of the insole 6. Since this weight is naturally distributed, especially in certain zones of the insole 6 (preform M and heel K), these zones will be subject to greater deformation than neighboring zones (for example those carrying the side of the foot). The aforementioned deformation consists of distorting the insole towards the sole, the insole overlapping towards the sole. The granular material in the layer 11 moves towards the respective cavity 10 to allow the insole to move towards the sole while providing support to the foot at the necessary locations, i. those in which the weight of the user resting on the lower part 1 of the shoe is less. This gives the user more comfort and is less tiring for the leg during use. In addition, the special shoe composition of the present invention presents a lesser risk of damaging the user's bone and muscle structure during use, for example during sporting activity.

It should be noted that after the first movement of the granular material from the layer 11, and in any case after it reaches the final location within the cavity 10 of the wedge 11 (preferably achieved after prolonged use), this material is compacted (user weight) to remain permanently higher. place. The insole on which the user's foot rests can permanently maintain the anatomical shape obtained, which corresponds to the foot of the user's foot.

In order to further improve the comfort of the shoe and in order to absorb the impact of the user's foot on the surface and return at least a portion of the energy that would otherwise be lost in the impact, at least one pad 13 containing suitable means for enabling said damping and energy return to the foot is used. Zone K Shoes. The insert could be of the type already described by the same Applicant: it could, for example, comprise an airtight housing in which at least one layer of barrel-shaped deformable elements (not shown) is located, these elements being connected to each other at their widest middle zones and associated with opposite faces of the housing. According to a variant of the subject invention of the same Applicant, the insert could comprise a housing comprising a liquid in a liquid state and a liquid in a gaseous state (not shown) suitable for liquid absorption when the user ascends the surface; thus, the absorption of gas by the liquid produces a dampening effect, thereby partially absorbing the energy that the user transmits to the surface. When the user's pressure on the aforementioned pad ceases, the gas escapes from the liquid, creating some elastic pressure on the foot, making it easier to lift it from the surface.

The insert 13 is embedded in the granular layer 11, which keeps it in position (zone K). Alternatively, the wedge 3 in this layer may include a special sleeve (bound by physically defined walls) suitable to hold the insert 13 in place.

According to a further embodiment of the invention, another insert 13A of the type identical or equivalent to the above type 13 could be placed in the pre-pass zone M of the support part 1, as shown by the dashed line in Figure 2.

Another embodiment of the invention is shown in Figure 5, wherein the parts corresponding to the parts in the figures already described are designated with the same reference numbers. In this figure, the upper is already attached to the wedge 3 (on which at least one insole 6, not shown) is placed. According to the invention, in a contemplated form, means suitable for restoring energy to the user's foot upon contact with the surface and subsequent lifting while being suitably supported by the foot are associated with the wedge 3. These means described in the Applicant's previous patent include at least one insole 40 made of composite materials a wedge cavity 10 and a sole 2. The insole 4 is provided with a first portion 50 made of a woven composite material (thus comprising weft fibers T and warp fibers O combined as in normal fabric); these fibers may be carbon fibers impregnated with a thermosetting resin (or carbon resin) and / or a carbohydrate of a fibrous material sold under the name Kevlar (aramid fibers impregnated with a thermosetting resin). Where the carbon fibers are bonded to aramid fibers, a fabric is obtained in which the attack is made of carbon fiber and the warp is made of aramid fiber or Kevlar. The above weft - T or warp - O fibers are all arranged parallel to each other and all at a specified angle with respect to the longitudinal X axis of the shoe (although the weft fibers are perpendicular to the warp fibers).

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The second portion 51 of the woven composite material is connected to the first portion 50 in a known manner and is located in the area of the user's foot arch, and the third portion of the woven composite material 52 is located in the area of the user's blank. toe 53 shoes and part 51). The second portion 51 and the third portion 52 define a second layer of insole 55 made of composite material. The first part comprises side tongues 50A and 50B.

More specifically, the first and second portions 51 and 52 have their fibers (carbon, aramid or the like) arranged to cross each other and provide relatively considerable torsional strength on corresponding portions of the sole. In other words, the weft threads T and the warp O in a given portion (e.g., 50) are arranged at different spatial angles relative to the weft threads T * and the warp O 'of the second portion 51. For example, T are positioned at 45 ° angles relative to the longitudinal axis X of the sole. and the filaments umiestn are positioned at 90 ° angles to said X-axis. The overlap of portion 50 with portion 51 in the arch support area provides a high torsional strength system. Part of the vault support is also strong against bending.

The portion 52, in turn, has the fibers constituting it (the weft T 'and the warp O') arranged in one direction, which means that the weft and warp fibers in this section are arranged parallel to the predetermined spatial orientation, i. they all have predetermined angles with respect to the X axis (although they themselves remain at 90 ° angles). The fibers T ' and O ' in section 52 are parallel to the T and O fibers in section 50 that are located in a portion thereof cooperating with section 52. The unidirectional fibers in section 52 and the corresponding portion of section 50 (having weft fibers T and T ' and the warp threads O and O (parallel to each other) allow the sole lining zone M to be elastic (in the direction indicated by the arrow F) even when the portion 52 is connected to the portion 50 to allow normal bending in that zone along the W axis which is at right angles to the longitudinal axis X of the shoe and is positioned between the shoe tip 53 and the portion 51.

In the investigated embodiment at the bottom 1 of the shoe, the sole 2 (affixed to the insole 40) may be divided into two parts, 57 and 58, to cover the insole in the forepart M and the heel zone K. Thus, according to the embodiment, the insole 40 has two clearly separated physical one resilient corresponding to the arch support zone of the shoe P and one resilient located between the front tip of the shoe 53 and the aforementioned zone P.

In use, the sole made according to the invention will be strong enough to adequately support the wearer's foot during movement; however, since the pre-void zone is sufficiently flexible, the sole has adequate 'compliance', which does not affect the user's bone or muscle structure negatively, thus preventing microfractures, which could be relatively dangerous, especially if the user is an athlete. In addition, the elasticity in the zone M covered by the portion 52, which extends from the toe of the shoe 53 to the portion 51, functions as an element returning the maximum possible energy exerted by the wearer on the surface during movement, giving the foot a significant impulse. basketball).

Preferably, between the insole 40 and the wedge 3, more particularly between its cavity 10 containing the granular layer 11 and the composite insole 40, there should be a layer of compliant material (e.g. expanded material or rubber) 60 that effectively encloses the cavity 10 and acts as a force damping element. the impact that the user exerts on the surface during movement.

The embodiment of the invention shown in Figure 5 allows to obtain a shoe that is anatomically adaptable to the athlete's leg, but without this feature preventing the insole 40 from returning the above energy to the leg after it has been impacted on the surface and lifted.

According to the embodiment of the invention shown in Figure 5, the projecting end 59 extends from the portion 51 with a certain gap to be coplanar with it. This overhang (or tongue) 59, preferably made of a woven composite material, such that its weft and warp fibers are oriented in the same way as the fibers of the portion 50 and parallel to (i.e., are unidirectional), penetrates into the respective housing 65 This construction causes the stability of the shoe 1 to be increased and thus the correctness of the user's foot support on the surface.

Various embodiments of the invention have been described. However, forms other than those detailed above are possible. For example, the insole 6 itself could be made compliant (e.g. containing a granular material inside). These other solutions are to be considered as covered by the scope of the present invention.

Claims (28)

PATENT CLAIMS Footwear comprising an upper (A) and a lower leg supporting portion (1) connected to said upper (A), the portion (1) comprising a sole (2) on which a wedge (3) containing at least one inner insole ( (6) suitable for contact with the user's foot, characterized in that the insole (6) upon which the user's foot rests can be permanently deformed after at least the first time the footwear is used, the deformation following the shape of the lower sole, assumes an anatomical shape corresponding to the shape of the lower sole of the user's foot. Footwear according to claim 1, characterized in that the sole (6) rests directly or indirectly on pliable elements (11) which yield to the user's weight, which elements allow the insole to be deformed, thereby causing the insole to permanently assume a specific shape the lower area of the user's foot. Footwear according to claim 1, characterized in that the compliant element consists of a layer (11) of granular material arranged in the packaging element (3) located below the deformable insole (6). Footwear according to claim 3, characterized in that the granular material is of synthetic origin. Footwear according to claim 4, characterized in that the granular material is granulated ethyl vinyl acetate. Footwear according to claim 4, characterized in that the granular material is granulated synthetic rubber. Footwear according to claim 4, characterized in that the granular material is a granulated expanded material. Footwear according to claim 3, characterized in that the granular material is of the natural type. Footwear according to claim 8, characterized in that the granular material is granulated natural rubber or cork. Footwear according to claim 8, characterized in that the granular layer (11) comprises granules of different materials. Footwear according to claim 3, characterized in that the size of the granules constituting the pliable element is between 0.5 and 4 mm, the size selection being dependent on the type of footwear, i.e. its intended use. Footwear according to claim 3, characterized in that the element containing the granular material is a wedge (3), the wedge having a cavity (10) comprising said layer. Footwear according to claim 11, characterized in that the cavity (10) containing the granular layer has different depths as a function of the different wedge zones, the depth being greater in the region of the wedge zone (K) corresponding to the heel of the user's foot. Footwear according to claim 3, characterized in that the granular layer (11) is continuous, that is arranged along the entire area of the insole (6) on which the user's foot rests. Footwear according to claim 3, characterized in that the granular layer (11) is discontinuous and has different parts which are separated and located in different zones of the insole (6) on which the user's foot rests. Footwear according to claim 1, characterized in that it comprises elements (13, 40 and 60) suitable for absorbing the impact force of the foot on the surface and restoring energy to the foot as it is lifted off the surface. Footwear according to claim 16, characterized in that the means for absorbing and restoring energy (13) are embedded in a layer of granular material (11). Footwear according to claim 16, characterized in that the means for absorbing and restoring the energy (13) are located at a corresponding location in the wedge (3) between the wedge and the sole. Footwear according to claim 16, characterized in that the means for absorbing and returning energy (13) comprise at least one liner (13) with an airtight housing in which several barrel-shaped elements are located, which are bound to each other in their middle zones and are bound by wrapping at opposite ends. Footwear according to claim 16, characterized in that the energy absorbing and returning means comprises at least one closed shell insert (13) comprising at least two fluids, the first being absorbable by the second so as to absorb the force generated by the user in contact with the surface and it has stored at least a portion of the energy that the user transmits to the surface during movement, the first fluid being expelled from the second when the foot is raised from the surface, creating pressure in the direction of the foot itself. Footwear according to claim 16, characterized in that the energy absorbing and returning means comprises a layer of compliant material (60) acting as a damping means disposed between the layer of granular material (11) and an element (40) of composite material acting as energy returning means . Footwear according to claim 21, characterized in that the composite material element (40) is an insole and includes a fixed portion disposed in the region of the sole support zone (P) and a second, elastic portion disposed between the front shoe tip (57) and the zone the arch support (P), the second portion being able to flex at least about one axis (W) located between the front tip (57) and the arch support zone (P) of the shoe. Footwear according to claim 21, characterized in that the composite material of the insole (40) comprises woven fibers, wherein the fibers of the fixed first part are crossed and the fibers of the flexible second part are unidirectional. Footwear according to claim 22, characterized in that the solid first part of the composite material element (40) comprises at least two layers of woven composite materials, the first layer having weft and warp fibers in a plane at an angle to the longitudinal axis of the shoe (X). the weft and warp fibers of the second layer are at an angle to the axis relative to that of the fibers in the first layer, thereby crossing it. Footwear according to claim 22, characterized in that the resilient second part of the woven composite material element (40) comprises at least one layer of woven composite material in which the weft or warp fibers are at an angle to the longitudinal axis of the shoe (X). ), so they're one-way. Footwear according to claim 22, characterized in that the resilient second part of the woven composite material element (40) comprises a plurality of overlapping layers of woven composite materials, all of which are at an angle to the longitudinal axis of the shoe (X) in the same plane. Footwear according to claim 22, characterized in that the composite element (40) comprises a first portion (50) of woven composite material carrying second and third portions (51 and 52), which also are of woven composite materials and are located at least in the area of the support zone of the forepart (7A) and the arch (6A) of the sole, and wherein said first portion (50) has weft and warp fibers in the same plane as the corresponding fibers of the third portion (52) and to the corresponding fibers in the first part that cross each other. Footwear according to claim 27, characterized in that the first part (50) extends into all zones (M, P and K) of the supporting walls of the shoe (1).