FR3024374A1 - DEVICE FOR FIXING A SHOE TO A SPORTS ARTICLE - Google Patents

Abstract

Device for fastening (21) a shoe (19) to a sports article (15), the shoe being provided with a fastening member (23) located in front of the metatarsophalangeal joint and a coupling member (24) posterior to the first, said device comprising a base (2), a housing (4), a coupling and bending element (1). The coupling and bending element (1) locks the fastening member (23) of a shoe (19) when it enters the housing (4) and exerts a restoring force on the body coupling (24) of the shoe (19) increasing when the heel of the shoe (19) moves away from the base (2). The device according to the invention is particularly interesting for the practice of sports requiring a course of the foot and a large amplitude in the gestures, especially for the practice of cross-country skiing.

Description

The present invention relates to a device for attaching a shoe to a sports article. It will be more particularly implemented in the devices in which the shoe is attached to the sports article by its front portion, but in which his heel remains free to lift relative to the sports article. Such a device is for example used in cross-country skiing. The invention will be more particularly described in its application to a fixing device of the type described for example in the documents FR-2.645.758, FR-2.645.759, FR 2.645.760, FR-2.645.761, FR-2.719.230. , FR-2,834,473, documents which will be usefully referred for a detailed description of these devices.

In these systems, the boot comprises a fastening member, for example a transverse rod, and the fastening device comprises a housing in which the fastening member can be received, the housing being open or closed depending on the position. a lock. In the devices known until now, the movement of the lock between its open and closed positions is controlled by a maneuvering system, often sophisticated, working very well, but relatively heavy. In these systems, the restoring force of the boot towards its rest position, namely lowered heel, is obtained either by an elastic means working essentially in compression against the front of the shoe, or by an elastic means taking up efforts, by means of a lever or a flexible link, under the shoe at a second attachment member posterior to the first. These two solutions have been proven, the first being more widespread but providing a lateral control of the ski less good than the second and concentrating the majority of the constraints on the front of the toes, but presenting a better unfolding of the foot without increasing the risk of creating a wedge of snow under the shoe. In addition, these systems have the disadvantage of being relatively heavy.

The object of the invention is to propose a fastening device which is particularly simple both in terms of mechanism, and therefore of manufacture, and in terms of use, but also very light compared to the solutions known hitherto, all the same. combining a good foot roll with excellent lateral control of the ski thanks to an element working mainly in bending. All to have a shoe close to the ski for more sensations and control. For this purpose, the invention provides a device for attaching a boot to a sports article, the boot being provided with a fastening member located in front of the J-2-metatarsophalangeal joint and a coupling member posterior to the first, and a free zone under the sole complementary locking means and locking device. said device comprising: a base, a housing in the base, and a coupling and bending member; characterized in that the flexing of the coupling and bending member allows, when the attachment member of a shoe is introduced into the housing, the rotation of the boot around the fastener, and exerts a restoring force on the coupling member of the shoe increasing when the heel of the shoe moves away from the base. In any case, the invention will be better understood and other characteristics thereof will be demonstrated by means of the description which follows with reference to the appended diagrammatic drawings showing, by way of non-limiting examples, several Embodiments and in which: Figure 1 is a top view of a device for attaching a boot to a ski, according to the present invention, the device being in the closed position without shoes. Figure 2 is a top view of a ski boot attachment device according to the present invention with the device in an open position without a boot. FIG. 3 is a side view of a device for attaching a boot to a ski, according to the present invention, the device being in the closed position without a boot. Figure 4 is a top view in longitudinal section along A-A of Figure 3 of a device for attaching a shoe to a ski, according to the present invention, without shoes. Figure 5 is a side view in longitudinal section along B-B of Figure 1 of a device for attaching a shoe to a ski, according to the present invention, without shoe in the closed position. Figure 6 is a side view of a ski boot attachment device according to the present invention with the device closed and the boot resting on the ski. Figure 7 is a side view of a ski boot attachment device according to the present invention, the device being in the closed position, the heel of the boot being raised. Figure 8 is a longitudinal sectional side view along B-B of a shoe attachment device to a ski, according to the present invention, the device being in a closed position, the heel of the boot being raised. - Figure 9 is a side view of a device for attaching a shoe to a ski, according to the present invention, the device being closed and the heel of the shoe fully raised. FIG. 10 is a top view of a ski boot binding device according to the present invention, without boot, in a closed position, with an opening / closing mechanism. - Figure 11 is a side view of a device for attaching a boot to a ski, according to the present invention, without shoe, in the closed position, with an opening / closing mechanism. FIG. 12 is a side view of a ski boot attachment device according to the present invention, without boot, in the open position, with an opening / closing mechanism. Figures 1 to 5 show a device (21) according to the present invention in which the coupling and bending element (1) is a leaf spring in slide connection with the base (2) and a flange. (3, 17) integral with this base. The slide connection must at least be provided on one side of the housing (4), but will be more efficient by being provided at the front and rear of the housing (4). Each of these parts must measure between one millimeter and five centimeters long. These two zones may be extended in the direction opposite to the housing 4 by lateral guide elements whose length is between zero and five centimeters. The coupling and bending element (1) can move along the slide connection between an open position (FIGS. 2 and 11), in which the hooking member (23) can be introduced or disengaged 4, and a closed position (Figures 1, 3 and 5 to 11) wherein the coupling element and bending (1) prevents the release of the fastening member (23). In all these examples, the coupling and bending element 1 has a geometry (here the stop (8)) imposing an end-of-travel in its slide connection in the direction of the heel of the boot (19). In FIGS. 1 to 3 and 5 to 9, the coupling and bending element (1) has, in an anterior part of the housing (4) in the closed position, a gripping element (9) allowing the opening and the closure of the device, and a flexible link (10) connected to the base 30 (2) (but can also be connected to the support 15) ensuring not to lose the coupling element and bending ( 1) in case of opening of the device, which device is held in closed position by a stop (5) integral with the base (2) can be exceeded by a slight lifting of the front part of the coupling element and bending (1). These three - 4 elements are replaced in the example shown in FIGS. 10 to 12 by a simple mechanism 18 for opening and closing the device maintained in each of these two positions thanks to the stiffness of the coupling and bending element. (1) Countering the vertical movements, whose flexibility in its front part allows the movement of the opening / closing mechanism. This closing opening mechanism (18) consists of two arms (11) connected by the gripping element (22). These arms (11) are connected to the leaf spring by an axis (which can be replaced by two) (12) and to a member (14) fixed on the support (15) by two axes (13) (which can be replaced by a alone). It is obvious that the useful length of the two arms (11) (length between the axes 12 and 13) must be at least equal to half the length of the coupling element and bending (1) posterior to the housing ( 4) in the closed position, in order to ensure the effective opening of the device (21). But it is also necessary that their length does not exceed half the sum of the length of the slide connection and the coupling element and bending (1) posterior to the housing 4 in the closed position. This is to prevent the complete exit of the attachment and bending element 1 when opening the device (21).

In the examples shown in FIGS. 1 to 12, the coupling and bending element (1) has a limit stop 8 for rotation of the shoe (19), which can also be positioned on the front part of the shoe. the flange (17) or any other element integral with the base (2). This stop allows both to have better control of the ski at the end of the movement and to preserve the coupling element and bending (1) of too large a deformation. This stop (8) can be composed of more or less flexible materials and be more or less thick to have a more or less gradual and steep end of the rotation of the shoe (19). The base (2) has in its rear part (posterior to the slide connection, here the area of the flange 3, 17) an edge (20) allowing better control / guidance of the support by the shoe, and a zone lower (16) allowing the support of the shoe on either side of this edge. In the base (2), between the two parts (3 and 17) of the flange, is arranged the housing (4) accommodating the fastening element (23) of the shoe (19). The surface of this hollow (4) is covered with a member (7) of harder material than the component of the base (2) for better sliding and better transmission. Between the base (2) and this element (7) it is possible to add an elastic element allowing a vertical play catch between the fastening element (23) and the housing (4) closed by the element d coupling and bending (1).

Figures 6 to 10 show the front of a shoe (19) which is connected to a sports article such as a cross-country ski or hiking (15) by means of said linkage system (21) according to the present invention. The attachment element (23) of the boot (19) is thus housed in the recess (4) and blocked upwards by the coupling and bending element (1) in the closed position. This element (1) exerts a restoring force towards the rest position on the coupling element (24) of the boot (19) when its heel is raised. Figure 9 also shows the role of abutment played by the element 8 on the rotation of the shoe (19). Of course, the function of the leaf spring (1) can be filled by any other elastic means such as for example a spring wire having flexibility with respect to a flexion in a longitudinal and vertical plane with respect to the face upper support (15). The travel limitations of the coupling and bending element (1) can be realized by other abutment means than those presented in (8) and (5). The coupling and bending element (1) may consist of composite materials, or any other material allowing the desired deflection and stiffness. This coupling and bending element (1) may further have a variable width and height as the space between the portions (3 and 17) of the flange and the base (2). These variations can be envisaged for example for easier opening / closing, or better compatibility with the shoe (19). This coupling element and bending (1) may in particular have a surface resistant to indentation and decreasing the frictional forces at the levels of the fastening members (23) and coupling (24) of the shoe 19. The the stiffness of the coupling and bending element (1) is chosen according to the intended use, and its length (and that of the ridge (20)) as a function of the positioning of the coupling element ( 24) of the shoe (19) and its maximum deflection as shown in Figure 9. The stiffness of said leaf spring may be variable in its length. Indeed its stiffness: - in its front part to the housing (4) (in the closed position) directly influences the opening / closing movement - in its part at the housing (4) (always in the closed position) influences the holding the fastening element (24) in its housing (4) - in its rear part (4) (in the closed position) determines the restoring force exerted by the coupling and bending element (1 ) on the shoe (19) via the coupling element (24) With regard to its geometry, the coupling and bending element (1): - can be narrower at its ends in order to improve its engagement in narrow areas - must be adjusted (in the closed position) in width and height to the space offered between the base and the flange (or other element ensuring the slide connection), in all or part of the length of the rigid connection, at least one millimeter long for both areas of the link (posted anterior to the housing (4)) - must be, in its posterior part to the housing (4) in the closed position, of a width and a height less than or equal to both those described in the preceding point and to those offered by the free space under the shoe. If the latter condition is not fulfilled, the device can no longer be opened or closed. More the width of the element (1) is close to that of the space under the shoe (19) better is the control of the support (15) by the shoe (19), but a smaller width allows a boot easier. Thus, having a width adjusted to that of the shoe (19) in a restricted area, between one millimeter and three centimeters in length, and a reduced width on the rest of its rear portion can give the coupling element and bending (1) better longitudinal sliding by decreasing the play with the shoe 19 and without reducing its mechanical characteristics. The thickness of the spring (1) is also important. It must not be too thin to have sufficient strength: more than two tenths of a millimeter; neither too high to have sufficient maximum bending: less than four millimeters. In addition, the fact of giving it a decreasing thickness either in steps or in a continuous manner, from front to rear from the front of the sliding connection (17) (in the closed position) allows easy opening / closing. Thus the rear portion of the hooking and bending element (1) (posterior to the flange front (17) in the closed position) may be slightly thinner than the rest. In all cases, the geometry of the space left for the sliding connection (between the flange (3 and 17) and the base (2)) must coincide in a minimum of points, in each of the anterior and posterior zones of the connection , with that of the leaf spring (1) in the closed position so that said leaf spring (1) has no play in the closed position so that it effectively maintains the fastening member (23) of the shoe (19) in the housing (4). That is, the coupling and bending member (1) is in contact with the elements constituting the fixed portion of the slide connection in these areas. In order to have thicknesses and mechanical characteristics varying in length and width as previously mentioned, the coupling and bending element (1) can have a variable composition in these two directions. -7 The friction surface (7) in the base (2) is not necessarily necessary, it depends in particular on the material constituting the base (2). The elements making up the slide connection, here the flange (3 and 17), must be very resistant because it takes all the vertical pulling forces exerted by the shoe. For better holding, in the example shown in all the figures the flange (3, 17) forms a tube passing under the base (2) and its portion (6) under the base (2) is wider for a better distribution of forces under the base (2). But this slide connection can be achieved by other means such as for example a part connected to the sides of the base (2) or to make a single piece with the base (2). Its outer width must be in line with the free space in the sole of the shoe (19) to allow both a good rotation of said shoe (19) and good control. Its width must allow the sliding connection of the coupling element and bending (1) and an excellent recovery of effort when the latter is in the closed position. As regards the materials to be used for producing such a device, many solutions are possible, however the use of polymers and reinforcing fibers such as for example carbon fibers for the structural parts such as the element of coupling and bending (1) and the flange (3, 17 and 6) and a polymer loaded or not with fibers for the base (2) can allow to have a device (21) very light with respect to current solutions on the market. The use of sandwich in all or parts of the length of the leaf spring (1) can achieve the objectives of stiffness and / or geometry mentioned above while retaining the advantages of lightness. The use of a metal alloy for the part (7) as well as for a coating of the coupling and bending element (1) at the levels of the fastening members (23) and coupling (24) of the shoe (19) in the closed position can bring a better rotation and a better maintenance of the shoe 19 and a better durability of the device (21). The grasp element (9) and the link (10) are just examples of solutions, many others are possible to fulfill their functions. It should be noted that the use of such a linking system (21) is particularly advantageous for the practice of sports requiring a foot unwind and a fairly large amplitude in the gestures, and in particular for the practice of cross-country skiing. either in classical technique or skating. - 8 - Indeed, this system with leaf spring brings many advantages: - A better control and a greater precision of the guidance of the support when the heel is raised, - A reminder of the shoe more homogeneous throughout the movement, - The possibility of having parts resistant more to fatigue and aging, - The possibility of having a very light system while maintaining or improving the characteristics of existing equivalent systems, - A fairly easy choice of the stiffness of the assembly according to the foot roll and control sought.

Claims (13)

REVENDICATIONS1. Fastening device (21) of a shoe (19) on a sports article (15), the shoe being provided with a fastening member (23) located in front of the metatarsophalangeal joint and an organ coupling (24) after the first, said device 5 comprising: a base (2), a housing (4), a coupling and bending element (1), characterized in that the coupling element and bending (1) locks the attachment member (23) of a shoe (19) when it is inserted into the housing (4) and exerts a restoring force on the coupling member (24) the shoe (19) increasing when the heel of the shoe (19) moves away from the base (2). 2. Fastening device (21) according to claim 1, characterized in that the coupling element and bending (1) is a leaf spring. 15 3. Fastening device (21) according to one of claims 1 or 2, characterized in that the coupling element and bending (1) forms a slide connection with the base (2). Fastening device (21) according to claim 3, characterized in that the coupling and bending element (1) can move along the sliding connection between an open position, in which the hooking (23) can be introduced or disengaged from the housing (4), and a closed position in which the coupling and bending element (1) prevents the release of the latching member (23). 5. Fastening device (21) according to claim 3, characterized in that the coupling element and bending (1) has a geometry imposing a limit switch in its slide connection in the direction of the heel of the shoe ( 19). 25 6. Fixing device (21) according to claim 3, characterized in that the part or portions ensuring the slide connection must each be between one millimeter and five centimeters long. 7. Fastening device (21) according to claim 5, characterized in that the coupling element and bending (1) has, in an earlier part to the fastening member 30 (23) in the closed position, a gripping element (9) or a mechanism (18) for opening and closing the device. 8. Fastening device (21) according to claim 5, characterized in that it has a stop (5) or a mechanism (18) for maintaining it in the closed position. 9. Fastening device (21) according to claim 1, characterized in that the coupling element and bending (1) or a portion integral with the base (2) has a stop (8) end of stroke rotation for the shoe (19). 10. Fastening device (21) according to claim 2, characterized in that the coupling element 5 and bending (1) has a variable stiffness in its length. 11. Fastening device (21) according to one of claims 1 or 2, characterized in that the coupling element and bending (1) has a width or a thickness variable in its length. 12. Fastening device (21) according to claim 2, characterized in that the coupling element 10 and bending (1) is composed of polymer and reinforcing fibers. 13. Fastening device (21) according to one of claims 1 or 2, characterized in that a sliding coating is present on the areas of the coupling element and bending (1) in contact with the body d hooking (23) or the coupling member (24).