FR2898252A1 - Sports shoe for e.g. running, has outer bottom with outer sole or contact layer made of adherent material, where insert with front and rear part has rigid characteristics arranged partly in contact with upper surface of sole - Google Patents

Abstract

The shoe has an upper (10) with an outer bottom (20). The outer bottom has an outer sole (21) or a contact layer made of adherent material. An insert has rigid characteristics arranged partly in contact with upper surface of the sole, where the insert has a front part (33) and rear part (31). An upper comfort layer (22) is arranged directly below the upper. The insert has the part (33) presenting a rise (35) along the layer (22).

Description

The invention relates to a footwear, in particular

  sport comprising a rod surmounting an outer sole produced according to a laminated profile in several layers fulfilling distinct functions.

  Such a shoe is known from FR 2,685,173 which relates to a modular assembly structure comprising from bottom to top: an outer layer called said contact layer, made of adherent material such as rubber or the like, which is intended to provide a good adhesion to the ground and good resistance to abrasion, - an intermediate layer, called "nerve", disposed directly in contact with the upper face of the contact layer, which exhibits controlled characteristics of torsional and flexural rigidity, - A so-called comfort upper layer of damping material which is disposed directly under the rod, that is to say closer to the foot and has damping characteristics and / or elasticity vis-à-vis the This last layer is assembled directly on the upper of the shoe, such a shoe construction and especially its soleing makes it possible to obtain a modular concept of sole in which every The invention fulfills distinct functions, the modulation of which makes it possible to provide shoes meeting the various needs to be filled according to the particular sport for which the boot is intended. The FR 2 777 429 also describes a shoe provided with a three-layered sole in which the intelinediaire layer, called "nerve", has transverse recesses of particular shape intended to provide a stable and stable support of the shoe, and particularly to provide "edge-grip" support, i.e., increased grip in down-hill terrain The object of the present invention is to provide an improvement to the outer-sole constructions of the type discussed above. The object of the present invention is in particular to propose a sole construction which provides a stimulus effect, such a stimulus effect is advantageous for use in running, but also, as the case may be, for use on the market or otherwise. or these objects are achieved in the shoe according to the invention, which is of the type comprising a rod surmounting an outer sole, comprising from the bottom upwards an outer sole having characteristics of In the invention, the insert has an adherent insert, an insert having controlled stiffness characteristics, and a comfort upper layer of cushioning and / or viscoelastic material, whereby the insert has a front portion extending up the upper comfort layer. When walking, running, the insert comes by its front part to compress, or prevent deformation, the comfort layer in the phases of flexion of the foot, because of the additional energy is stored by the layer comfort, this energy being restored during the next phase of relaxation of the foot.

  The rise of the insert thus makes it possible to obtain, by compressing the comfort layer, an additional stimulus effect, which is added to the stimulus effect associated with the more or less rigid material constituting said insert. In any case the invention will be better understood and other characteristics thereof will be highlighted with the aid of the following description with reference to the attached schematic drawing illustrating by way of nonlimiting example several embodiments. and in which: - Figure 1 is a perspective view of a shoe according to the invention - Figure 2 is an exploded perspective view of the shoe of Figure 1 - Figure 3 is a bottom view of perspective of the shoe of Figure 1 before assembly of the outer sole, - Figure 4 is a bottom view in perspective illustrating the final assembly of the sole assembly, - Figure 5 is a view similar to Figure 2 according to a second embodiment of embodiment, - Figure 6 is a bottom view in perspective illustrating the final assembly of the sole assembly.

  Figure 1 shows a shoe 1 according to the invention consisting of a rod 10 and an outer sole 20 surmounted by said rod. In the example shown, the shoe 1 is a shoe intended for running, particularly on uneven ground, and therefore has a relatively low shaft 10 and an outer cushion 20 which is damping but nevertheless low enough so as not to damage the stability of the foot. 2 0 on uneven ground or on the ground. The rod 10 is provided, in a manner known per se, with a lacing system 11 and a front end 12. The sole assembly 20 comprises, in a manner known per se, an outer sole 21 or contact layer made of adherent material and resistant to wear such as rubber, an insert 30 consisting in this case of two parts respectively before 33 and rear 31, and a so-called upper comfort layer 22 which is of damping material such as EVA . This comfort layer 22 may also be made of a viscoelastic material such as elastomer, PU foam. The insert 30 is, in the example shown, consisting of two parts respectively rear 30 and before 31 and 33, but it could obviously be in one part. The rear portion 31 of the insert is not described in detail. In the example shown, this rear part 31 has a vault shape extending as far as the edges of the outer sole 21 and defining tabs 32 surrounding this outer sole as described in EP 1 447 019, this construction being advantageous for the 'hangs on non flat land. In this embodiment a shim 50 of damping material such as EVA, PU foam is interposed between the rear portion 31 of the insert and the contact layer 21 (see Figure 3), this shim 50 could be removed so as to have a direct contact of 31 and 21. Of course this rear portion 31 of the insert could have a different shape / construction depending on the desired result and / or type of shoe.

  The insert 30 is preferably made of an elastically deformable material, that is to say a relatively rigid material and having controlled torsional and flexural stiffness characteristics, and having a Young's modulus E greater than 40 MPa. The preferred materials for this insert are: - polyurethane (PUR, TPU) loaded or not loaded Young's modulus E greater than 40MPa, - polyamide (PA) loaded or uncharged, - polyethylene and all synthetic materials having a module Young E greater than 40 MPa.

  "Composite" materials, for example based on fiberglass / carbon and synthetic resin having a Young's modulus E greater than 50 MPa are also conceivable. It is also possible to envisage the use of metallic materials and, for example, aluminum alloys for certain parts of the insert 30. For each insert 30 or insert part 31, 33, the thickness will be a function of the degree of desired elasticity and Young's modulus of the selected material. Depending on the desired applications the two insert parts 30, 31 may have similar or different stiffnesses, in the latter case the insert portion 30 may be chosen steeper than the insert portion 31, or vice versa. In the case shown and as shown particularly in FIGS. 3 and 4, the rear portion 31 of the insert is extended forwardly by two V-shaped branches 32a which have a reduced thickness with respect to the remainder of said rear portion 31. The front portion 33 of the insert also has two horizontal legs 34 having slightly divergent shapes corresponding to those of the branches 32a of the rear portion 31 of the insert. These two branches 34 extend forwards by a vertical rise 35 which covers the upper comfort layer 22 and the front end 12 of the rod 10 (see Figure 1). In the example shown, the front lift 35 of the insert extends only at the end of the boot, ie not on the sides thereof. Depending on the case, it can also go up on the sides. Having the insert 30 in two parts 31, 33 makes it possible to reduce the number of molds required for the production thereof. Indeed by overlapping of the branches 32a and 34 respectively rear and front portions of the insert, one can use the same type of insert for several shoe sizes. It suffices to have a recovery function of the length of the shoe and to proceed to the bonding. The two insert parts 30, 31 can also be connected together without overlapping or simply butted. The branches 34 also have a reduced thickness in their area 34a overlap with the branches 32a, so as to avoid any discontinuity at the insert. Finally, the branches 34 have in the horizontal zone an enlargement 34b can be visible on the sides of the sole after the shoe mounted. The vertical lift 35 has, in the example shown, the form of an inverted vertical U connecting the two horizontal branches 34. Figures 1 to 4 illustrate a first embodiment in which a first subassembly 22-part comfort layer rear 31 of the insert is made by gluing (see Figure 3).

  This first subassembly is assembled by gluing to the rod 10 provided with a front end 12 and a strobel sole 13, said rod being mounted on a shape (not shown in the drawing). The front portion 33 of the insert is then assembled, by gluing, both to the rod and to the first comfort sub-assembly 22-rear portion 31 of the insert, as shown in Figure 4. During this assembly the front portion 35 of the portion of the front insert 33 traps both the comfort layer 22 and the rod 10. Finally, the outer sole 21 or contact layer is bonded together on the assembly thus formed.

  With the construction according to the invention, the reinforcing front portion 33 comes by its ascent before forcing both the layer of damping material 22 and the rod 10. During a bending movement of the shoe occurring during a bearing movement of the front part of the foot on the ground, the material constituting the comfort layer 22 is constrained and prevented from expanding, thus at the end of the bending movement, the material of this layer 22 will tend to to resume its original shape and release an energy that will add to that restored by the elastic material constituting the front portion 33 of the insert. The stiffness of the freeze can also affect the restitution of energy. By a simple construction, the quantity of energy restored at the end of the bending movement is thus significantly increased, a quantity of energy which results in an additional impetus which is appreciable in stroke. Of course the construction mentioned above is not limited to a race application and can also be of great interest in other areas and in particular in a walk or other application. Figures 5 and 6 illustrate another embodiment of the invention in which similar or equivalent elements will be designated by the same references. In fact in this second embodiment, the shoe has exactly the same elements, the only difference residing in the assembly mode thereof. In this case the front portion 33 of the insert is a separate subassembly with the front end 12 of the upper of the shoe.

This subassembly can be made by bonding these two elements or by overmolding the front end 12 on the front part of the insert 33, or vice versa. In this second embodiment, the assembly steps are slightly different. Indeed, as shown in FIG. 5, three subassemblies are first produced: a first subassembly constituted by the rod mounted on a form but without a front end, a second subassembly constituted by the front endpiece and the insert front portion 33, - and a third subassembly constituted by the comfort layer 22 and the rear portion 31 of insert. The second subassembly 1233 is positioned and assembled on the rod by gluing and then the third subassembly is put in place and glued between the rod and the second subassembly as indicated by the arrow F in FIG. 6. This second embodiment of FIG. assembly has the advantage that the positioning of the insert front portion 33 relative to the rod 10 and to the entire insert 22-partoe rear comfort layer 31 is easier. Then the outer sole 21 is glued as shown in Figure 4. Of course the present invention is not limited to the embodiments described above by way of non-limiting example but encompasses all similar or equivalent embodiments .

Claims (10)

  1-shoe comprising a rod (10) and an outer sole (20), the upper (10) surmounting the outer sole (20), the outer sole (20) comprising from bottom to top: - an outer sole (21) ) or contact layer of adherent material, - an insert (30) having stiffness characteristics disposed at least partly in contact with the upper face of the contact layer (21), - a so-called upper comfort layer (22) , disposed directly below the rod, characterized in that the insert (30) has a front portion (33) having a lift (35) along the upper comfort layer (22).   2- Shoe according to claim 1, characterized in that the front lift (35) of the insert also rises along the rod (10) of the shoe.   3- Shoe according to any one of claims 1 or 2, characterized in that the front lift (35) of the portion of the front insert (33) extends only at the end of the shoe.   4- Shoe according to any one of claims 1 to 3, characterized in that the insert (30) is in two parts, respectively before (33) and rear (31).   5- Shoe according to one of claims 1 to 3, characterized in that the front portion of the insert is steeper than the rear insert portion (31). 2 0   6- Shoe according to any one of claims 1 to 3, characterized in that the rear portion (31) of the insert is steeper than the front portion (30) of the insert.   7- Shoe according to any one of claims 2 to 6, characterized in that the comfort layer is in a damping or viscoelastic material.   8. Shoe according to claim 1 to 7, characterized in that the rod (10) has at its front end a front end (12).   9- Shoe according to claim 8, characterized in that the front end (12) and the front portion (33) of the insert form a subassembly.   10- Shoe according to claim 9, characterized in that the front end (12) is overmolded on the front portion (33) of the insert.