CA2791159A1 - Footwear with improved tightening on the upper - Google Patents

Abstract

Shoe (1) comprising an outer sole (2) and a shaft (3), the shoe (1) extending in length from a heel (4) to a point (5), in width between a lateral part ( 6) and a medial portion (7), and in height from the outer sole (2) to an upper end (12), the shoe (1) having a boot opening (17), and comprising a reinforcement (40). ) which is part of the rod (3) and whose rigidity is greater than that of the rest of the rod, at least in the region of the instep, the reinforcement (40) comprising a lateral edge (42) and / or medial (43) which extends over a reduced length of the shoe (1) at least vertically above the instep, the shoe comprising a transverse link (50) intended to tighten the neck area. -foot, the link (50) extending from the lateral part (6) to the medial part (7). The link (50) comprises a first subdivision (51) extending in the direction of the length of the shoe (1), at a distance of between 25 and 70% of the length (L) thereof.

Description

Improved Shank Shoe The invention relates to a shoe, especially a sport shoe, and relates more particularly a shoe intended for skiing, walking sporting, or athleticism.
This shoe can be used in areas such as cross-country skiing or telemark, walking or running flat or mountain, mountaineering or surfing on snow, the snowshoeing, rollerblading, wheeling, cycling, a sport ball, or whatever.
A shoe may include a low or high shaft. It is usually desirable that the foot of a user is sufficiently maintained. Indeed, good support foot in the stem allows better use.
For example with a soft shoe, as used for the practice of the cross-country skiing, a sufficient support facilitates the transmission of sensory information or the unfolding foot. Especially at the instep, a device for tightening the rod is destined to maintain the foot of a user.
Traditionally, a clamping device comprises, on the one hand, a link or lace and, on the other hand, links of the lace to the stem. These links are materialized by passers-by, associated with lateral or medial portions or quarters of the stem. The lace follows a path that alternately leads from one neighborhood to another. So just pull on the lace to bring closer neighborhoods and shake the rod. Then, the lace lock maintains the Tightening.
A problem to be solved by a good clamping device is the foot maintenance in the shoe. In particular in the practice of skating, that is to say cross-country skiing exercised according to a skater's step, it is important to achieve a sufficient support foot in a transverse direction of the shoe. This allows a transverse push more precise.
That is why it is in other words to avoid movements untimely foot, in the shoe, especially at the instep.
Indeed, when the foot moves in the stem, at the level of the instep or elsewhere, the transmission of sensory information or driving impulses is less precise. In consequently the performances, in particular sports, are altered. In addition, movements repetition of the foot in the stem result in friction that creates trauma.
In order to improve the holding of the foot, it has been proposed to provide the shoe with a reinforcement that is part of the stem and whose rigidity is greater than that of the rest of the stem, at least in the region of the instep.
Such an example is provided by the document FR 2 923 362. In the latter, a shoe comprises a traditional clamping device, that is to say with a lace and citizents arranged to reversibly clamp the shank, but also a reinforcement rigid which includes a lateral and / or medial edge. The reinforcement extends over a reduced length of the shoe, at less at the instep of the instep. The shoe according to document FR 2 923 362 includes a transversal link intended to tighten the zone of the instep, which extends from the side part to

2 consequence is a stronger hold of the foot at the instep and / or metatarsal.
This means that the foot is urged towards the outer sole with more than strength.
However, it appeared that in a shoe according to the document FR 2 923 362, the maintenance and / or comfort of the foot is still imperfect. In particular, at the tarsus or metatarsal, there are still parasitic movements of the foot in the stem, in transverse direction and / or in vertical direction. These movements are source of fatigue for a user, because the user must exert extra efforts to transmit pulses. In a broader way we can say that the transmission of news sensory is imperfect.
In other words, it is still desirable to improve the holding of the foot in a footwear, that is to say the transverse holding, or the vertical holding, or again both.
This is why one of the aims of the invention is the improvement of the maintenance of the foot in the footwear or, in other words, the reduction, or even the suppression, of trips untimely foot in the shoe. This in transverse direction and / or vertical.
Another object of the invention is to make the shoe more comfortable, in the meaning of a less fatigue of the user, this as well in static mode as in mode dynamic. It is indeed interesting to have pleasant sensations as well at the stop as during movements, such as those generated during the practice of cross-country skiing, walk, or whatever.
Another object of the invention is to optimize the transmission of pulses of driving or of sensory information between the user and an element external to the shoe, like the ground or a sports machine.
To do this, the invention proposes a shoe comprising an outer sole and an stem, the shoe extending in length from a heel to a point, in width between a lateral part and a medial part, and in height since the soleing external to a upper end, the shoe having a boot opening, and including a reinforcement which is part of the rod and whose rigidity is greater than that from the rest of the stem, less in the region of the instep, the reinforcement comprising a lateral edge and / or medial who extends over a reduced length of the shoe at least in line with the neck of foot, the shoe comprising a transversal link intended to tighten the neck area foot, the link extending from the lateral part to the medial part.
The shoe according to the invention is characterized by the fact that the link includes a first subdivision extending in the direction of the length of the shoe, according to a distance between 25 and 70% of the length thereof.
Of course the transversal link is put in tension, and maintained in tension of way reversible, by any known means. For example the cross link can understand a portion side, a medial portion, and a reversible clamping mechanism.
It therefore appears in the shoe of the invention that the link extends longitudinally the action of transverse tightening. As a result, the pressure of the foot are spread over a

3 metatarsus. This distribution of pressures, in the sense of an increase in length, prevents or strongly limits the effect of rocking the foot into the stem, for report to an axis transverse. It also means that alternative tarsal uprisings posterior and metatarsal are prevented or very limited. This effect is obtained by difference vis-à-vis art previous, in which a narrower cross-link sometimes acts as a pivot axis foot in the stem.
Thus the invention advantageously allows a better support of the foot, which means also a reduction, even the suppression, of untimely movement of the foot in the shoe. The risks of trauma are therefore avoided, or even totally deleted.
Another advantage provided by the invention is that of a better comfort of the foot in the footwear, especially in the sense of reduced user fatigue, that in mode static or in dynamic mode.
The invention still advantageously allows a better transmission pulses of conduct or sensory information between the user and an element outside the shoe, like the floor or a sports machine.
Other features and advantages of the invention will be better understood in using the description which follows, with reference to the accompanying drawing illustrating, according to forms of realization nonlimiting, how the invention can be realized, and wherein:
FIG. 1 is a front perspective view of a shoe according to a first form embodiment of the invention, which shows a lateral part, in a case where the link transversal tightens the stem, FIG. 2 is a front perspective view of the shoe of FIG. 1;
which shows a medial part, in a case where the transversal link is open, FIG. 3 is a view of the medial side of the shoe of FIG. 1, FIG. 4 is a front perspective view of a reinforcement of the shoe of FIG. 1 FIG. 5 is a side view of the shoe of FIG. 1, FIG. 6 is a front perspective view of a shoe according to a second form embodiment of the invention, which shows a medial part, in a case where the link transversal is open, FIG. 7 is a front perspective view of the shoe of FIG. 6;
which shows a lateral part, in a case where the transversal link tightens the rod.
The first embodiment which will be described later concerns more specially shoes for cross-country skiing, or telemark skiing. However the invention applies to other areas such as those mentioned before.
The first form is described below with reference to FIGS. 1 to 5.
As shown in Figure 1, a cross-country ski boot is 1 provided for welcome the foot of the user.

4 In known manner, the shoe 1 comprises an outer sole 2 and a rod 3. The shoe 1 extends in length from a rear end or heel 4 up to one end before or point 5, and in width between a lateral portion 6 and a portion medial 7.
As represented by the rod 3 comprises a lower portion 10, provided for surround the foot, and a high portion 11, provided to surround the ankle.
However, he could be considered a rod comprising only the lower portion.
According to the first embodiment described, the shoe 1 extends in height since the outer sole 2 to an upper end 12, that is to say up to the free end of the upper portion 11 or the rod 3.
The shoe 1 is structured to allow a good bending of the leg or good foot flow, as well as the transmission of sensory information or pulses of conduct. This is why the rod 3 is relatively flexible. The sole external meanwhile can be relatively rigid, or more flexible.
As best seen in Figure 2, the shoe 1 includes a wedge lateral 15 and a medial district 16. Quarters 15, 16 are intended to cover the foot and, as such, are respectively of the constituent elements of the lateral 6 and medial parts 7.
Of course, the quarters 15, 16 are secured to the outer sole by means of techniques known as gluing, sewing, or any equivalent. Districts 15, 16 are arranged so that the boot 1 has a boot opening 17. This one 17 extends from the upper end 12 to the front end 5. On the side of the upper end 12 the opening 17 has an upper subdivision 18 for leaving pass the foot, and also to surround the ankle after putting on. At the level of the instep, between the upper end 12 and the front end 5, the opening 17 has a lower subdivision 19 authorizing a variation in size of the opening and the volume of footwear. Good heard, subdivisions upper 18 and lower 19 extend each other.
Note that the heel 4 corresponds to the rear end of the rod 3, but also by extension to the part of the stem located immediately above the sole external and the plumb of the upper subdivision 18 of the opening 17. The heel 4 of the shoe envelope the heel of the user.
It is observed that the rod 3 comprises a tongue 20. The latter 20 is arranged between the lateral 15 and medial 16, at the level of the lower subdivision 19 of the opening 17, to give the rod 3 its continuity. However, it could be planned to do not use tongue. In this case, quarters 15, 16 may remain separate or overlap. Or a bellows can connect the neighborhoods to one another.
In addition, and not mandatory, the shoe 1 includes a flap 25 planned to reversibly cover the bottom subdivision 19 of the opening footwear 17. The flap 25 extends from one quarter 15, 16 to the other, to improve the tightness of the shoe.

According to the first embodiment, the flap 25 is secured in a manner fixed to the neighborhood 15. The flap 25 covers the boot opening by being folded on this one and on the medial district 16. Although this is not the case here, it can be expected a reversible closure which makes it possible to secure the flap 25 also to the medial quarter 16.
case, closing

5 reversible includes a slide. However, any other structure could be planned for make the closing. For example a sequence of snap.
The shoe 1 further comprises a clamping device 30, intended to reduce the opening reversibly. In other words, the clamping device 30 allows to tighten the rod 3 reversibly.
As is known to those skilled in the art, the clamping device 30 comprises by example, a first link 31, a second link 32, as well as links 33 of the links to the stem 3. Of course each link travels from one neighborhood 15, 16 to the other subdivision 19. This structure makes it possible to exert a reversible tightening of the stem 3 to the neck foot, at the level of the lower subdivision 19 of the opening 17.
is possible to exert a tightening on the foot of the user. To maintain the tightening of the device 30, and therefore of the rod 3, the shoe 1 is provided with a quick release mechanism.
This last is not described in detail here. It simply states that the mechanism of fast blocking also allows quick unlocking.
It can of course be provided any other means for maintaining the clamping, including remove the blocking mechanism and, instead, make a node.
As it follows from all of Figures 1 to 5, the shoe 1 comprises a reinforcement 40 which is part of the stem and whose rigidity is greater than the rest of rod 3 at least in the region of the instep, the reinforcement 40 comprising a bottom 41, an edge lateral 42 and / or a medial edge 43, the reinforcement 40 extending perpendicular to the bending fold and / or the neck foot. The reinforcement 40 extends here outside the structure of the rod, but he could alternatively extend further inside the structure. The shoe also includes a transversal link 50 intended to tighten the area of the instep, the link 50 extending from side portion 15 to the medial portion 16, outside the rest of the rod.
Of course the underside 41 of the reinforcement 40 supports the foot, directly or indirectly.
As a corollary, the lateral 42 and medial edges 43 are opposite areas lateral and medial foot. Consequently, given the relative stiffnesses of the reinforcement 40 and the rod 3 in the region of the instep, as well as the location of the transverse link 50, a tightening of this last holds the foot directly, or indirectly, on the bottom 41 and on one or both edges 42, 43 of the reinforcement. This ensures the holding of the foot in the direction vertical and transverse direction.
With reference in particular to FIG. 4, it can be seen that according to the first form of embodiment of the invention the reinforcement 40 comprises not only the underside 41, the side edge 42 and the medial edge 43, but also a rear edge 44. More precisely the lateral edges 42, AA 1 1 1 = 1 Year

6 which extends from the heel 4 to the front end 5 of the shoe.
The side edge 42 has a lateral vertex 46 and a front end 47. By analogy the edge medial 43 has a medial vertex 48 and a front end 49. Accordingly, if one the journey of the heel 4 towards the front end 5, the continuous wall 45 rises to then go down again. In fact the lateral 46 and medial 48 vertices are located in line with the subdivision superior 18 of the opening of boot 17. This allows a better transverse support of ankle.
Still according to the first embodiment of the invention, the underside 41 since the heel 4 towards the front end 5 of the shoe, beyond the ends lateral front 47 and medial 49 of the lateral edges 42 and medial 43 of the reinforcement 40. In other words the lateral edges 42 and medial 43 of the reinforcement 40 extend over a reduced length of the shoe. More precisely the lateral 42 and medial edges 43 extend from the heel 4 right up to the instep, that is to say at the height of the clamping device 30. It follows that the heel and the neck foot of the user are accommodated in a rigid hollow form, that bounded by the under 41 and the wall 45, and that the front end of the foot is greeted on a flat portion reinforcement 40, that in front of the lateral edges 42 and medial 43. In fact this flat portion allows a flexion of the front of the foot, or an unfolding, especially at the level toes.
Note that the lateral 42 and medial edges 43 are substantially opposite one of the other which, as we will see later, facilitates the implementation of the link transversal 50 on the shoe.
The reinforcement 40 is made from the materials and methods known. Of preferably the underside 41 and the edges 42, 43, 44 form a single piece.
This can include fibers of synthetic and / or natural materials embedded in a matrix. By example of carbon fibers and / or glass, impregnated in a resin thermosetting or thermoformable, give the reinforcement 40 a high rigidity. We must hear thereby rigidity greater than that of the rest of the stem, especially of the quarters 15, 16.
Of course, other materials may alternatively be provided for the reinforcement 40, by a plastic material loaded with particles and / or cut fibers.
In this case the reinforcement 40 is obtained by molding, injection, or any equivalent method.
According to the invention, the transversal link 50 comprises a first subdivision 51 extending in the direction of the length of the shoe, according to a distance between 25 and 70% of the length of it. This arrangement corresponds to extensive cooperation link with the rest of the stem. As a result, the clamping pressure is distributed over one more great length. he advantageously, the maintenance of the foot in the shoe is better. We observe not, or only very little, untimely movements of the foot in the shoe. It is why it's both the comfort and the driving precision that are improved.
According to the first embodiment described and in a nonlimiting manner, as we can see it in Figure 3, the first subdivision 51 of link 50 has since the posterior tarsus to the metatarsal. The posterior tarsus corresponds to the heel of the foot, while that the metatarsal

7 between 50 and 70% of the length L of the shoe 1, allows the link 50 to squeeze the rod 3 opposite the most rigid part of the foot, especially in flexion. In effect, the skeleton foot strongly limits flexion along a transverse axis of the metatarsal report to tarsus. This is why the longitudinally extended hold of the foot preserves this last of excessive stress, with regard to flexion. As a result fatigue related to the use of the shoe is reduced.
In parallel, it is observed that the tightening of the transverse link 50 maintains the flap 25 facing of the boot opening 17, at the level of the lower subdivision 19, as well as on the medial district 16.
According to the first embodiment, the first subdivision 51 is medial. This provision promotes an extended tightening of the medial part of the foot. From this makes the transmission Driving impulses are facilitated on the medial side of the foot. This possibility improves the skating practice, especially cross-country skiing.
It can alternatively be provided an arrangement where the first subdivision 51 is lateral.
In this case the transmission of forces is improved on the lateral side of the foot, which is suitable for example in ski while braking snowplow.
According to the first embodiment again, the first subdivision 51 is solidarisée directly to the reinforcement 40. This optimizes the tightening of the foot towards the reinforcement 40, whether it's medial side, whether the first subdivision 51 is medial, or whether it is on the lateral, if the first subdivision 51 is lateral.
It appears that the reinforcement 40 is located outside the rod 3, for a better comfort of the foot. Indeed, as a result of the softer layers of the stem take place between the foot and the reinforcement 40. The reinforcement could also be arranged more inside of the stem 3, or completely indoors, especially if the focus is on performance comfort.
In order to cooperate with the reinforcement 40, the transverse link 50 is structured and arranged to be reversibly clamped between the lateral 42 and medial 43 edges.
show the set of FIGS. 1 to 5, the transverse link 50 comprises, for example, a first portion 55 or medial portion, a second portion 56 or lateral portion, and a first removable connection means 57 portions. The cross link 50 is in solidarity with least part of the reinforcement 40.
According to the first embodiment of the invention, the first subdivision 51 of the link 50 part of the first portion 55, and the first subdivision 51 presents a general form triangular. In fact the first subdivision 51 expands in a sense of bringing the outer sole 2, that is to say in the longitudinal direction, when running along it since the opening 17 to the outer sole. This allows to distribute the pressures clamping on a longer length of the medial side of the foot. This provision is good adapted to transverse thrusts of the leg, for example in the practice of skater skiing background.

8 Without limitation, the first subdivision 51 comprises three branches, to know a rear branch 61, a central branch 62, and a front branch 63. Au final branches 61, 62, 63 form a beam which widens in a direction of bringing the external sole assembly 2, in the manner of stays, for an optimization of the distribution of tensions. The beam leaves the boot opening 17 and flares out direction of the sole external. As a result the clamping pressures are more balanced along the first subdivision, and thus the maintenance of the foot is more homogeneous along the tarsus and metatarsus.
If a number of branches equal to three is satisfactory, not only for balancing tensions but also to give subdivision 51 a good aptitude for marry the forms portions of the stem that it covers, a number may be provided for different. The first one subdivision 51 can even have a continuous surface, that is to say not openwork, or a perforated structure, but organized otherwise than by an assembly of branches.
As can be seen in FIG. 3, a rear edge 64 of the first subdivision 51 form, with a plane P tangent to the outer soleing 2, an angle a whose value is included between 35 and 70 degrees. The rear edge 64 delimits the first subdivision 51, and therefore also the rear branch 61, both towards the back of the shoe and in a sense away from external sizing 2. This value of the angle has the virtual extension from the back edge 64 to cut the plane P at the rear end 4 or even away from this end in a sense of hindsight. It follows advantageously that the transversal link 50 is able to tighten the tarsus posterior, or the heel of the foot, in a direction of approximation, that is to say towards, from outer sole 2 and / or medial portion 7.
It is also observed that a leading edge 65 of the first subdivision 51 forms, with a plane P tangent to the outer sole 2, an angle (3 whose value is included between 60 and 85 degrees. The leading edge 65 delimits the first subdivision 51, and therefore also the branch before 63 towards the front of the shoe. This value of the angle (3 is the edge before 65 at the metatarsal, near the joints that connect the latter to the toes.
It follows advantageously that the transverse link 50 is able to clamp the metatarsus, in a sense of bringing the outer sole 2 and / or the medial part 7 closer together.
On the other side of the first subdivision 51, as can be seen from the Figure 5, the second portion 56 of the link 50 comprises a band 66 whose width W is between 5 and 20% of the length L of the shoe. In combination with the first subdivision 51 flared of the first portion 55, this configuration of the second portion 56 favors a stronger tightening of the medial side. This makes the shoe more suitable for practice of the step of skater.
Without limitation, the second portion 56 is secured directly reinforcement 40, in fact at the lateral edge 42 of the reinforcement.
In addition it is specified that the connecting means 57, the first 55 and second 56

9 detailed here, as well known to those skilled in the art. The clamping mechanism 57 is linked to the second portion 56 and, therefore, the first portion 55 includes a rack 70.
The latter joins the three branches 61, 62, 63 of the first subdivision 51, for a better transmission of tightening forces by the link.
The second embodiment of the invention is presented hereinafter at using figures 6 and 7. For the sake of convenience, the elements common to the first form are designated by the same references. So only the differences are put in evidence.
So we find for the second form a shoe 1, which includes especially a outer sole 2, a rod 3, and a transverse link 80.
What is specific to the second form is the arrangement of this link.
This one again includes a first subdivision 81 that extends in the direction of the length L of the shoe 1, at a distance B between 25 and 70% of the length L
of the shoe. But here the first subdivision 81 is lateral.
The link 80 includes a first portion 85, or a lateral portion, a second portion portion 86, or medial portion, and a connecting means 87 portions.
The first portion 85 includes a rear branch 91, a central branch 92, and one branch before 93. The connecting means 87 is secured to the first portion 85. The second portion 86 consists of a rack, intended to cooperate with the means link 87.
In all cases the invention is made from materials and according to techniques of implementation known to those skilled in the art.
Of course, the invention is not limited to the embodiments above described, and includes all technical equivalents that may fall within the scope of claims that will follow.
In particular in all cases the architecture of a transversal link can to be reversed, in the sense that the specificities related to a lateral part can be found on a medial part and vice versa.
Also, the specificities related to one of the lateral and medial parts can find yourself on each of the parties. For example, it can be expected that the link includes a second subdivision, that is to say in addition to the first, which extends in the direction of the length of the footwear between 25 and 70% of the length of the shoe.
this.

Claims (15)

1- Shoe (1) comprising an outer sole (2) and a rod (3), the shoe (1) extending in length from a heel (4) to a point (5), in width between a party lateral (6) and a medial part (7), and in height since the soleing external (2) up to upper end (12), the shoe (1) having an opening of footwear (17), and comprising a reinforcement (40) which is part of the rod (3) and whose rigidity is greater than that from the rest of the stem, at least in the region of the instep, the reinforcement (40) including an edge lateral (42) and / or medial (43) extending over a reduced length of the shoe (1) at least above the instep, the shoe comprising a transverse link (50, 80) provided for squeeze the instep zone, the link (50, 80) extending from the part lateral (6) to the part medial (7), characterized by the fact that the link (50, 80) comprises a first subdivision (51, 81) which extends in the direction of the length (L) of the shoe (1), according to a distance (l) included between 25 and 70% of the length (L) thereof. 2- Shoe (1) according to claim 1, characterized in that the first subdivision (51, 81) of the link (50, 80) extends from the posterior tarsus to the metatarsal. 3- Shoe (1) according to claim 1 or 2, characterized in that the first one subdivision (51) is medial. 4- Shoe (1) according to claim 1 or 2, characterized in that the first one subdivision (81) is lateral. 5- Shoe (1) according to one of claims 1 to 4, characterized by the does that first subdivision (51, 81) is secured directly to the reinforcement (40). 6- Shoe (1) according to one of claims 1 to 5, characterized by the does that reinforcement (40) is located outside the stem. 7- Shoe (1) according to one of claims 1 to 6, characterized by the does that reinforcement (40) includes the lateral edge (42) and the medial edge (43). 8- Shoe (1) according to one of claims 1 to 7, characterized by the does that link cross-section (50, 80) comprises a first portion (55, 85), in that the first one subdivision (51, 81) is part of the first portion (55, 85), and by the does that first subdivision (51, 81) has a generally triangular shape. 9- Shoe (1) according to claim 8, characterized in that the first subdivision (51, 81) comprises three branches (61, 62, 63, 91, 92, 93). 10- Shoe (1) according to claim 8 or 9, characterized by the fact that a back edge (64) of the first subdivision (51, 91) forms, with a plane (P) tangent to the outer sole (2), an angle (a) whose value is between 35 and 70 degrees. 11- Shoe (1) according to one of claims 8 to 10, characterized by the makes one edge before (65) of the first subdivision (51, 81) forms, with a tangent (P) plane at the sole ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 12- Shoe (1) according to one of claims 8 to 11, characterized by the does that link cross-section (50) comprises a second portion (56, 86) and a means for binding (57) provided for releasably connecting the second portion (56, 86) to the first portion (55, 85). 13- Shoe (1) according to claim 12, characterized in that the second portion (56, 86) comprises a band (66) whose width (W) is comprised between 5 and 20% of the length (L) of the shoe. 14. Shoe (1) according to claim 12, characterized in that the link (50, 80) includes second subdivision that extends in the direction of the length of the shoe according a distance of between 25 and 70% of the length thereof. 15- Shoe (1) according to one of claims 1 to 14, characterized by the does she comprises a flap (25) provided to cover the boot opening (17).