CA2917429A1 - Footwear article - Google Patents

Abstract

Footwear element (1) comprising a flexible outer sole (3) and a flexible upper (4), which define a boot volume, the footwear element (1) extending in length from a rear end (5) to a front end (6), in width between a lateral part (7) and a medial part (8), and in height from an outer face (10) of the outer sole (3) to an upper end (21), the footwear element having a boot opening (25), the footwear element comprising spikes (9) which protrude at the outer face (10) of the outer sole (3). The footwear element comprises a removable reinforcement (34) which has the general appearance of a plate, the reinforcement (34) extending in length from a rear end (35) to a front end (36), width between a lateral edge (37) and a medial edge (38), and in thickness between a bearing face (39) and a receiving face (40), the reinforcement (34) being arranged facing the outer soleing (3), the reinforcement (34) being substantially indeformable in longitudinal flexion along a transverse axis.

Description

Footwear The invention relates to a footwear element comprising an outer sole and a rod flexible, as well as points that protrude at an outer face of the external sole.
The footwear element is intended to house a shoe, including sports.
The invention also relates to a set comprising the footwear element and the shoe.
The footwear element, as well as the shoe, can be used in areas such as walking or running on horizontal terrain, hilly or mountainous, mountaineering, or climbing.
The shoe is known per se. It includes a flexible external sole and a flexible rod, allowing a user to walk, run, or practice a sport In the conditions usual, that is to say sometimes on dry grounds, or sometimes on wet, wet grounds, even muddy, snowy or covered with ice. Walking, running or practice of a sport are made difficult or even dangerous when the land is degraded or naturally difficult. This is particularly the case for soils made slippery by example because of mud, snow, ice, or whatever. To deal with situations like those mentioned above, he is known to cover the shoe of a footwear element, which is precisely planned for facilitate walking, running or playing a sport on playing fields difficult.
In general, the footwear element comprises an outer sole and a upper flexible, as well as points that protrude at an outer face of the outer sole.
By the spikes he wears, the footwear allows the user to walk, run, or more generally evolve on degraded or naturally difficult terrain.
The element footwear is particularly suitable for snow or ice. Consequently the user can practice its activity in good conditions, that is to say with a good level comfort or a good level of security. However, it appeared that the use of an element footwear with spikes sometimes poses some problems.
Indeed, if the spikes make walking, running or practicing a easier sport in this which concerns, for example, the adhesion to the ground, the precision of the supports or the transmission of sensory information, we realize that the user is still embarrassed in certain conditions.
A first problem is that of the precision of the supports or, more wide, from accuracy of sensory information transmissions. This first problem occurs mostly in extreme conditions of use. In these circumstances, the element footwear keeps hardly a stable position on the ground. This is the case for example for glacier evolutions or in ice cascades. In these environments, soil is often very inclined, and sometimes almost vertical or vertical; we then observe parasitic movements of the footwear relative to the ground, movements that alter the accuracy of the supports, the accuracy of transmissions of sensory information. We can say that an element footwear according to art previous limit the possibilities of evolution on the difficult grounds;
this element is not suitable for all terrains.

2 A second problem is that of comfort, again mainly in terms of use discussed before. Comfort must be understood as a situation in which the user sees his moderate fatigue, as well as an absence or a quasi Absence of trauma. In fact to compensate for the lack of precision in the supports or in transmissions, as we have seen, the user often makes efforts excessive which are source additional fatigue and, possibly, trauma.
In relation to this, the general object of the invention is the improvement of an element fitted shoe of spikes. More specifically, the invention seeks to improve the accuracy of supports or, so wider, the accuracy of sensory information transmissions.
The invention seeks to reduce user fatigue, and also to reduce, or even reduce totally delete, the generation of trauma related to the use of the footwear element. In other words, the invention seeks to improve the comfort of the footwear element, at least in about its use in extreme conditions.
To do this, the invention proposes a footwear element comprising a sole external flexible and flexible rod, which delimit a boot volume, the footwear extending in length from a rear end to an end before, in width between a lateral part and a medial part, and in height from a face outer sole to an upper end, the footwear element having a opening of footwear, the footwear element comprising spikes projecting from face level outer sole.
The footwear element according to the invention is characterized by the fact that includes a reinforcement which has the general appearance of a plate, the reinforcement extending length since a rear end to a front end, in width between an edge lateral and an edge medial, and in thickness between a support face and a reception face, the reinforcement being arranged in the outer sole, the reinforcement being substantially indeformable in longitudinal flexion, along a transverse axis.
When the reinforcement is removed from its functional location, the element footwear presents flexibility that promotes a smooth foot. The user is able to evolve with precision and in good conditions of comfort on land easy, that is to say, little hilly or slightly inclined. Conversely, when the reinforcement is put in place next to the sole, the footwear element has greater rigidity, at least at the of the sole external, which allows the taking of supports on a very inclined ground, almost vertical or vertical.
We can say that the reinforcement makes it possible to modify the rigidity of the element fit to fit this one to the desired conditions of use. Rigidity is increased mainly at the level externally, which has the effect of spreading the efforts related to supports on a large stretch of the footwear, and therefore over a large extent of the foot of the user. The perception of supports and sensory information by the user is more reliable, more consistent.

3 One advantage that follows from the foregoing is that, with the invention, the accuracy of the supports or, more broadly, the accuracy of information transmissions sensory, is obtained in environments where the soil is very inclined, almost vertical or vertical.
Another advantage that stems from the above is the improvement of the comfort of the footwear element when used in difficult conditions. The tired of the user is moderate, and the trauma is absent or very little present.
In fact the invention makes the footwear more versatile, conferring accuracy and comfort in all situations, provided that care has been taken put the reinforcement in place or remove it for the purpose.
It can be said in general that the invention improves a footwear element who includes spikes.
Other features and advantages of the invention will be better understood in using the description which follows, with reference to the appended figures illustrating, according to forms of nonlimiting realization, how the invention can be realized, and in which:
FIG. 1 is a front perspective view of an assembly which comprises a element footwear and a shoe according to a first embodiment of the invention, in one case where the footwear and the shoe are separated from each other, FIG. 2 is a section along II-II of FIG. 1, in a case where the shoe is arranged inside the footwear, FIG. 3 is similar to FIG. 1, for a second form of embodiment of the invention.
The first embodiment which will be described later concerns more especially a footwear for walking or running on snow or ice, or again for climbing in ice cascades. However, the invention applies to other areas such as those mentioned before.
The first form is described below using FIGS. 1 and 2.
As shown in Figure 1, a footwear element 1 is provided to accommodate a shoe of walking or running 2, itself intended to accommodate the foot of the user.
In known manner, the footwear element 1 comprises a flexible outer sole 3 and an flexible upper 4. The footwear element extends in length from one end back or heel 5 to a front end or tip 6, and in width between a portion lateral 7 and part medial 8.
The footwear element 1 also comprises spikes 9 which project at the level of a face external 10 of the outer sole 3. The implantation of the points 9 is not detailed here even though it can be specified that each point 9 serves to improve the adhesion of the element footwear 1 on slippery floor, with snow or ice.
As represented by the rod 4 comprises a first portion or lower portion 11, planned to surround the foot via the shoe 2, as well as a high portion 12, which extends the lower portion 11 in a direction away from the outer sole assembly 3, the high portion 12 being provided to cover at least the user's ankle, or the ankle and part of the

4 lower leg. Alternatively, an embodiment may be provided for which element footwear includes only a low portion.
The upper portion 12 of the rod 4 increases the outer surface of the element footwear 1, by compared to an element whose stem would include only a low portion. In does the high portion 12 of the stem 4 also increases the volume of footwear and protection of the footwear element.
As a result the specific properties of the lower portion 11 of the stem, like the tightness with water or snow, or thermal insulation, are extended by the portion high 12. In the end this are at the same time the foot, ankle and part of the lower leg that are protected. Water, snow or ice can hardly penetrate, if at all, inside of the footwear 1. The shoe 2 is therefore also protected.
It is specified in passing that the shoe 2 comprises a flexible outer sole 13 and one flexible shaft 14. The shoe 2 extends in length from one end back or heel 15 to a front end or tip 16, and in width between a portion side 17 and part medial 18. According to the first embodiment described, the shoe 2 includes a portion low 19 excluding any high portion. The shoe 2 extends in height since the outer sole 13 up to an upper end 20, that is to say up to the free end of the lower portion 19 or rod 14. In the same vein the element footwear 1 extends into height from the outer soleing 3 to an upper end 21, that is to say up to the free end of the upper portion 12 or the rod 4. Thus, when the shoe 2 is placed in the footwear element 1, the upper end 20 of the upper 14 is more close to the sole external 3 than is the upper end 21. This reflects the fact that the rod 4 of the element footwear 1 extends the cover obtained by the rod 14 of the shoe 2.
Still according to the first embodiment of the invention, the portion bass 11 and the upper portion 12 of the footwear element 1 form a continuous envelope. it means he no passage remains for the intrusion of foreign bodies. That means also that the protection conferred by the flexible rod 4 extends both at the level of the low portion 11 and level of the high portion 12.
By more specifically considering Figure 1, it is noted that the footwear element 1 presents a opening of donnage 25. This 25 extends from the upper end 21 to the sole 3. On the side of the upper end 21 the opening 25 has a subdivision upper 26 for letting the foot pass, and also to surround the bottom of leg after boot. In the lower leg, ankle and heel, between the upper end 21 and the outer sole 3, the boot opening 25 of the flexible rod 4 presents a lower lateral subdivision 27 and a medial subdivision 28, which authorize variation in size of the opening and a variation of the boot volume.
Of course, the upper 26 and lower 27 lateral subdivisions extend one the other, and subdivisions upper 26 and lower medial 28 extend one the other. This arrangement allows the introduction of the shoe 2 in the footwear element 1, or its withdrawal. By corollary the arrangement above allows the introduction or withdrawal of the foot, at the same time time that the =
shoe. It should be noted in passing that it is possible to provide an alternative of construction for which the boot opening 25 has the upper subdivision 26, as well as lower rear subdivision. In this case, the latter extends to the level lower leg and of the heel, between the upper end 21 and the rear end 5 at the outer sole

5 3. The upper subdivision 26 and the lower rear subdivision are extend each other.
The footwear element 1 also comprises closure means 29 of the subdivision lower side 27 of the boot opening 25, as well as means for closing 30 the medial lower subdivision 28 of the boot opening 25. This keeps the rod 4 at contact of the shoe 2 on the one hand, and in contact with the ankle and the bottom leg on the other hand.
Without limitation, the closing means 29, 30 comprise respectively slides 31, 32. These allow an opening or closing fast of the lower subdivision 27, which saves time for shoes off. However other closure means structures are possible, for example a device to lace, a device with complementary bands, one of which is provided with loops and the other hooks, or any equivalent means.
Still according to the first embodiment of the invention, the arrangement near the back of the stem of subdivisions 27, 28 facilitates the fitting of the element footwear 1 by one foot already covered shoe. Another benefit is better resistance to body penetration foreigners, especially in snowy conditions. Indeed, because lower subdivisions 27, 28 are located towards the rear, the front face 33 of the rod 4 is continuous from the front end 6 up to the upper end 21. In other words, the front does not presents no passage.
But walking is translated by advances and contacts of the rod 4 with the snow on the side of this face. Its continuity of structure is a guarantee of watertightness and / or protection.
In summary, it can be said that the boot opening 25 has a upper subdivision 26 and at least one lower subdivision 27, 28, the lower subdivision 27, 28 being located in an area that extends over 50% of the length of the footwear element 1 from the end back 5.
According to the invention, the footwear element 1 comprises a removable reinforcement 34 which present the general appearance of a plate, the reinforcement 34 extending in length from a rear end 35 to a front end 36, in width between a lateral edge 37 and a medial edge 38, and in thickness between a support face 39 and a reception face 40, the reinforcement 34 being willing to external sole 3, the reinforcement 34 being substantially indeformable in flexion longitudinal, along a transverse axis.
When the reinforcement 34 is removed from its functional location, the element footwear 1 has a flexibility that promotes a smooth foot. The user is therefore to evolve with precision and in good conditions of comfort on easy terrain, to say little rugged or slightly inclined. Conversely, when the reinforcement 34 is set up in external sole 3, the footwear element 1 has a greater rigidity important, least at the level of the external assembly, which allows the taking of supports on a very ground

6 inclined, almost vertical or vertical. The reinforcement 34 makes it possible to modify the rigidity of the element footwear 1 to adapt it to the desired conditions of use. The rigidity is increased mainly at the level of the outer layer, which has the effect of distributing efforts related to supports on a large extent of the footwear element, and therefore on a large foot extension of the user. Perception of supports and sensory information by the user is more reliable, more consistent.
As a result the precision of the supports or, more broadly, the precision of the sensory information transmissions, is achieved in environments where the soil is very sloping, almost vertical or vertical. For example, in the case where the footwear is equipped with 9 frontal points, the user can climb very steep slopes stiff or walls in relieving muscular effort in the calves and muscles of the feet.
The fact of stiffen the footwear element reduces fatigue due to an effect of lever arm, between the points that catch the ice in the front and the heel. In addition, we observe an improvement of comfort of the footwear when used in conditions difficult. Tiredness the user is moderate, and trauma is absent or very little present.
The reinforcement 34 is intended to reinforce a substantial part of the element footwear 1, that is here, a substantial part of the outer sole 3. For this purpose, the reinforcement 34 presents a length between 80 and 100% of the length of the outer soleing 3, and a width between 80 and 100% of the width of the outer sole 3. In such a way more precise, in the frame of the first embodiment of the invention, the reinforcement 34 has a length between 90 and 100% of the length of the outer sole, and a width between 90 and 100% of the width of the outer sole. This makes it possible to transmit efforts related to supports, and in fact all the sensory information, on the totality or almost all of foot.
Still with regard to the dimensional aspect, the thickness of the reinforcement 34 is included between 1 and 6 mm. These values have worked well, knowing that they vary according to selected material or materials, which will be presented later. In all state of affairs, it is necessary to adopt a compromise between the weight of the reinforcement 34 and its flexural strength.
If the thickness is important flexural strength is important but the weight is it also a little more important. This amounts to significantly improving the transmission of news sensory, while slightly weighting the footwear. AT
the opposite, if the thickness is less important the flexural strength is less important, but the weight is also a little less important. In this case the transmission of sensory information is improved in a more measured proportion, but the footwear element remains lighter.
In the end everything is deal, and the user can actually choose the reinforcement that best, among several reinforcements with different properties, to adjust the element behavior fitting to his needs.
According to the first embodiment still, the reinforcement 34 is arranged to inside the boot volume. This is delimited by the outer sole and the stem.
In practice reinforcement is inserted into the footwear to take place next to the outer soleing 3, for example by being placed directly in contact with the latter. In this case, the support surface 39 of the reinforcement 34 comes directly into contact with the outer sole 3. This is an implementation very simple, because it is easy to place the reinforcement in the element wearing or removing it.
As regards its constitution, the reinforcement 34 comprises a material synthetic. The reinforcement is for example made of one or more layers of materials such as polyamide, polyurethane, polyethylene, or any similar material. The reinforcement 34 can also include one or more layers of fibers or fiber portions, drowned in thermoformable or thermosetting materials, such as resins or any material appropriate plastic. The fibers are arranged in all possible ways, for example in being woven.
According to the first embodiment of the invention, the element footwear comprises a clamping device 41 secured to the reinforcement 34, the device tightening 41 being planned to tighten a shoe 2 and / or a foot housed in the volume fit. It is make sure that the foot is immobilized relative to the reinforcement 34, for a better perception sensory information, and better transmission of efforts that in the end go allow a better grip of the points in the snow or in the ice, especially if the user moves in a very steep or vertical wall.
Without limitation, the clamping device 41 consists of straps 42, 43 or portions of straps that can be held in a clamping position, by example by means a blocking device 44.
The clamping device 41 is located at an area of the reinforcement 34 which since the rear end 35 towards the front end 36, over a distance between 10 and 45% of the length of the reinforcement 34. This makes it possible to press the user's foot on the heel of the element footwear I.
The second embodiment is presented below using the figure 3. For reasons of convenience, the common elements with the first form are designated by the same references.
For the second form, there is a footwear element 1 with a sole external 3 and a flexible rod 4, and a shoe 2 and a removable reinforcement 54. A
the reinforcement 54 presents the general appearance of a plate, the reinforcement 54 extending in length from one end rear 55 to a front end 56, in width between a lateral edge 57 and a medial edge 58, and in thickness between a bearing face 59 and a receiving face 60, the 54 reinforcement being disposed facing the outer sole 3, the reinforcement 54 being substantially indeformable in flexion longitudinal, along a transverse axis.
What is specific to the second form is that the footwear element 1 includes a clamping device 61 secured to the outer soleing 3 and / or the rod 4, the clamping device 61 being provided to tighten a shoe 2 and / or a foot housed in the footwear volume. The again, it is a question of making sure that the foot is immobilized with respect to reinforcement 54, for a better perception of sensory information, and better transmission of efforts in the end will allow a better attachment of the points in the snow or in ice, especially if the user is moving in a very steep wall or vertical.
Without limitation, the clamping device 61 consists of straps 62, 63 or portions of straps that can be held in a clamping position, by example by means a blocking device 64.
The clamping device 61 is located at a zone of the reinforcement 54 which since the rear end 55 towards the front end 56, over a distance between 10 and 45% of the length of the reinforcement 54. This makes it possible to press the user's foot stubborn heel of the element Footwear 1.
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, the invention covers an assembly comprising a shoe with a stem bass 2 and 1 5 a footwear item 1.
In addition, what is meant by flexibility in terms of 3. That ci is flexible, in the sense that it allows a flexion or unwinding of the foot during the walk.
The outer soleing 3 comprises for example one or more layers of material synthetic.
Without limitation, a layer of material such as that a polyurethane, 20 whose thickness is between 3 and 7 mm.
It is further specified that, without limitation, the footwear element 1 includes a front spike 65 and rear spike 66. 11 may alternatively be provided only one front crampon, or only a rear crampon, but the use of two crampons improved the ability of the footwear to cooperate with snow or ice.
A spike comprises, for example, a body 67 which carries the spikes 9, as we can see figure 2.
The reinforcement can have a geometry in three dimensions, always with general aspect of a plate, but being bordered by a wall, discontinuous or continuous, by example peripheral, for a better transversal wedging of the shoe housed in the element 30 footwear.
Furthermore, it has been seen that the clamping device 41, 61 is internal to the footwear element. We can alternatively provide cases for which the clamping device is external to the element fit.

Claims (10)

9 1- footwear element (1) comprising a flexible outer sole (3) and a rod flexible (4), which delimit a boot volume, the footwear element (1) extending lengthways from a rear end (5) to a front end (6), in width between a party lateral (7) and medial portion (8), and in height from an outer face (10) of the sole exteme (3) to an upper end (21), the footwear presenting an opening footwear (25), the footwear element comprising spikes (9) which protruding at the outer face (10) of the outer sole (3), characterized by the fact that includes a reinforcement removable (34, 54) which has the general appearance of a plate, the reinforcement (34, 54) extending length from a rear end (35, 55) to a front end (36, 56), in width between a lateral edge (37, 57) and a medial edge (38, 58), and in thickness between a support face (39, 59) and a receiving face (40, 60), the reinforcement (34, 54) being disposed in look of the sole exteme (3), the reinforcement (34, 54) being substantially indeformable in flexion longitudinal, according to a transverse axis. 2- footwear element (1) according to claim 1, characterized in that the reinforcement (34, 54) has a length of between 80 and 100% of the length of the outer sole (3), and a width of between 80 and 100% of the width of the outer sole (3). 3- footwear element (1) according to claim 1 or 2, characterized by the does that thickness reinforcement (34, 54) is between 1 and 6 mm. 4- footwear element (1) according to one of claims 1 to 3, characterized in that the reinforcement (34, 54) is disposed within the boot volume. 5- footwear element (1) according to one of claims 1 to 4, characterized by the fact that the reinforcement (34, 54) comprises a synthetic material. 6- footwear element (1) according to one of claims 1 to 5, characterized by the fact that comprises a clamping device (41) secured to the reinforcement (34), the clamping device (41) being planned to tighten a shoe (2) and / or a foot housed in the footwear volume. 7- footwear (1) according to claim 6, characterized by the fact that the device tightening (41) is located at an area of the reinforcement (34) which extends from the rear end (35) to the front end (36) over a distance of between 10 and 45%
the length of the reinforcement (34). 8- Footwear element (1) according to one of claims 1 to 5, characterized by the fact that comprises a clamping device (61) secured to the outer sole (3) and / or at the rod (4), the clamping device (61) being provided for clamping a shoe (2) and / or a foot housed in the footwear volume. 9- footwear element (1) according to claim 8, characterized by the fact that the device tightening (61) is located at a zone of the reinforcement (54) which extends from the rear end (55) to the front end (56) over a distance of between 10 and 45%
the length of the reinforcement. 10- Footwear element (1) according to one of claims 1 to 9, characterized by the fact that includes a front spike (65) and a rear spike (66).