CA2817349A1 - Cleat for footwear - Google Patents

Abstract

Crampon (1) comprising a body (3) extending in length from a rear end (4) to a front end (5), in width between a first edge (6) and a second edge (7), and in height between a support face (8) and a reception face (9), the crampon (1) comprising projections (20) projecting at the bearing face (8) and means retaining (21, 22) of a shoe (2) at the reception face (9). The crampon (1) comprises a device (31) for adjusting the longitudinal flexural strength of the body (3).

Description

Shoe cleats The invention relates to a crampon intended to be secured to a shoe. This crampon can be used in areas such as mountaineering, walking on snow or on ice, ice climbing, or whatever.
Traditionally a crampon includes a body that extends in length since a rear end to a front end, in width between a first edge and a second edge, and height between a support face and a reception face. In fact, body is dimensioned so that the reception face receives the sole of the shoe. The crampon includes protruding tips at the bearing face, in order to be able to anchor on the ground and thus to oppose slips. The crampon also includes means of retention of shoe on the front side. These means constitute a fixation, that is to say, a fastening system to the footwear in accordance with standard NF EN 893: 2011-01. In General attachment comprises one or more shoe retainers at the level of of the face Home.
The crampons are therefore able to be secured to different shoes for one the user can evolve more easily on slippery terrain, such as that glaciers, snowfields, ice cascades, or any snowy or icy terrain. We observe nevertheless that each type of crampon is more suited to a given terrain configuration, or a style of practice.
It has been noticed that some crampons favor walking in the field horizontal or little inclined. These crampons have sufficient flexibility to accompany deformation in bending of the sole of the shoe during the movements of the foot.
In other words, crampon is capable of flexing longitudinally, along a transverse axis, to course of the walk. Thanks to this characteristic, the user gets tired walking. But, by As a corollary, a disadvantage of a soft crampon is to tire the user in the passages very inclined, or vertical, as can be found on a glacier or in a wall of ice cream. Indeed, the flexibility of the crampon leads the user to make important efforts to control the supports on steep slopes or in the walls, because in this case the catch on the ground is done by the spikes before primarily, which forces to solicit strongly calves. In more of this fatigue in very inclined or vertical passages, we observe also that the accuracy of the supports before, although correct, is not optimal.
Other spikes have also been noticed, which favor walking on very ground inclined or vertical. These crampons have sufficient rigidity in the sense of their length so that the stresses and impulses associated with a ground hook or in a wall of ice, at the fore-ends, are transmitted to the foot through the entire body of the shoe. This mode of transmission reduces the fatigue of the user, because he must less strongly solicit his calves to control the supports. These latter are in addition more precise, compared to a flexible crampon, because it is the entirety of the who participates in their control. But, as a corollary, a disadvantage of a rigid crampon is to tire

2 the user in horizontal or slightly inclined passages, as meeting on glaciers or on the domes. Indeed, the rigidity of the crampon opposes strongly, if not a longitudinal flexion of the sole and a good unwinding of the foot during the walk.
One can summarize the state of the art by saying that some crampons are rather adapted to horizontal or slightly inclined terrain, while others are rather very inclined terrain or vertical such as ice walls.
In relation to this, the general object of the invention is to improve a crampon meant to be secured to a shoe. More precisely, the invention seeks to make so that the crampon is suitable for all situations and all styles of practice, that is to say horizontal, slightly inclined, strongly inclined, and vertical terrain.
In other words, the invention wants to make the crampon more versatile.
To do this, the invention proposes a crampon comprising a body that extends lengthways from a rear end to a front end, in width between one first board and a second edge, and in height between a support face and a reception face, the crampon including protruding tips at the bearing face, as well as means of restraint of a shoe at the level of the reception face.
The crampon according to the invention is characterized by the fact that it comprises a device adjustment of the resistance in longitudinal flexion of the body.
This means that it is possible to increase or reduce the rigidity flexion longitudinal. We could also say that flexibility in flexion longitudinal body can to be increased or decreased. This changes the extent of the active surface of the crampon body, in the sense that a stress applied to a point is transmitted locally to shading of a footwear if the body's rigidity is low, and in the sense that an effort applied on a point is transmitted to an extended surface of the soleing if the rigidity of the body is stronger. In the first case the sole can follow the movement of the foot unfolding during the walk in horizontal or slightly inclined terrain, which makes walking comfortable. In the second case supports or impulses before in very inclined or vertical ground are transmitted to a party important, if not all, of the sole and the foot, which increases the accuracy of these supports and pulses. In both cases the fatigue of the user is reduced.
We can summarize the main contribution of the invention by saying that the crampon is more versatile, with regard to its cooperation with the soil, compared to a crampon according to art prior.
In general, the invention improves a crampon intended to be solidarisé à un shoe.
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 a form of realization non-limiting, how the invention can be realized, and wherein:
FIG. 1 is a front perspective view of a crampon according to the form of FIG.
production proposed for the invention,

3 FIG. 2 is a side view of the crampon of FIG. 1, on which is presented a shoe, FIG. 3 is a section along 111-111 of FIG. 2, in a case where the flexural rigidity length of the crampon body is maximal, FIG. 4 is similar to FIG. 3, in a case where the rigidity in longitudinal flexion of the crampon body is minimal, FIG. 5 is a side view of the crampon of FIG. 1 alone, in a where rigidity body is maximal, FIG. 6 is similar to FIG. 5, in a case where the rigidity of the body is minimal and where the crampon is used in horizontal terrain, FIG. 7 is similar to FIG. 5, a case where the rigidity of the body is minimal and where the crampon is used in steep terrain.
The embodiment which will be described later with the aid of FIGS. 1 to 7 concerns crampons for mountaineering, walking on snow or ice, as well as cascade climbing of ice. However, the invention applies to other fields in which the use of such crampons are necessary.
As shown in Figure 1 a crampon 1, expected as will be seen better after for accommodate a shoe 2, comprises in known manner a body 3 which extends lengthways from a rear end 4 to a front end 5, in width between a first edge 6 and a second edge 7, and in height between a bearing face 8 and a face 9. The face 8 is intended to come in front of the ground, while the face of reception 9 is intended for receive the sole of the shoe 2.
Without limitation, the length of the crampon 1 can be adjusted. it allows to adapt it to shoes of different sizes, that is to say having different lengths.
For this purpose the body 3 comprises a rear plate 10 and a front plate 11, as well as a bridge 12 which connects the rear plates 10 and before 11 to each other.
see for example in FIG. 2, a first link 13 connects the plate to one another back 10 and the bridge 12, and a second link 14 connects the front plate 11 and the bridge to each other 12. The first link 13 comprises for example a nut 15, secured to the rear plate 10, as well as screw 16, secured to the bridge 12. In the same spirit the second link 14 comprises for example a nut 17 secured to the front plate 11, and that a screw 18, it is secured to the bridge 12. The links 13, 14 serve to secure the keeping together constituent parts of the body 3, namely the rear plate 10, the bridge 12, and the front plate 11. The links also serve to adjust the length of the body 3 and, in Consequently, the length 1. Simply rotate a screw in relation to a crampon nut.
The spike comprises projections 20 protruding at the level of the bearing face 8.
More precisely here the back plate 10 carries spikes 20, for example three, oriented substantially perpendicular to the bearing face. In the same spirit front plate 11 has spikes 20, for example five, four of which are oriented sensibly

4 perpendicularly to the support face 8, and one of which is oriented at an angle and forward, in extension of the front plate 11. If all the points 20 allow a hook in snow or ice, on a horizontal or slightly inclined ground, the tip oriented towards the front allows a catch in a vertical wall or very inclined. At final crampon 1 is very versatile as to its grip. It is specified, however, that other arrangements of structure can be provided.
The crampon 1 also comprises retaining means 21,22 of the shoe 2 to level of 9. As an example, without limitation, the crampon 1 includes a first retaining member 21 of the shoe 2 at the end back 4. This body 21 is in the form of a hook. The crampon 1 also includes a second retaining member 22 of the boot 2 at the front end 5. This organ is realized in the form of a stirrup. It is observed that each member 21, 22 is here provided to cooperate with the shoe 2 by hanging. More precisely, this last 2 includes a sole 23 and a rod 24. The sole 23 protrudes relative to the rod 24 to front and back. The footwear, that is to say, its placement on the shoe, is done so in introducing the front projection into the stirrup 22, then lowering the heel for the rear projection passes under the hook 21. The heaving meanwhile is done by moving away the hook of the shoe, then moving away from the crampon. Although the means of retained below before described give satisfaction, other means of restraint may be provided.
According to the invention, the crampon 1 comprises an adjusting device 31 of the resistance in longitudinal flexion of the body 3. We will see in more detail after operates, but we already specifies that the adjustment device 31 makes it possible to make the body 3 more or less rigid in longitudinal flexion, with respect to a transverse axis. We can also say by corollary that the adjustment device 31 makes the body 3 more or less flexible in flexion longitudinal, or to vary its state between a flexible level and a rigid level.
This notion is subjective, in part because it depends on the weight and level of practice the user. In all cases, a high rigidity of the body 3 promotes the catch on the ground strongly inclined or vertical, and less stiffness promotes walking in slightly inclined ground or horizontal. In the end the crampon according to the invention is versatile because it optimizes conditions of use for all types of terrain.
According to the proposed embodiment, and in a nonlimiting manner, the body 3 includes the rear plate 10 and the front plate 11, and the adjustment device 31 of resistance in longitudinal flexion is disposed between the plates 10, 11. This allows let it bend or, at contrary, to stiffen, a central region of the body 3. So when it is set to be relatively flexible, the body 3 promotes a smooth running of the foot. it reduces fatigue the user in flat terrain.
As can be understood from the set of FIGS. 1 to 7, the device setting 31 comprises at least one blade 32, 33 which extends between the rear plates 10 and before 11, each blade 32, 33 being rotatably mounted relative to the plates 10, 11 according to an axe longitudinal L of the body 3. The blades are parallel to each other when there has several. The blades 32, 33 are made from any suitable material, such as a steel or any metal equivalent, a composite material, or other. In each case a blade is flexible flexion longitudinal along a transverse axis parallel to its thickness. Conversely the blade is rigid

5 in longitudinal flexion along a transverse axis perpendicular to its thickness. It is why, as will be explained later, the previously evoked orientation blades directly conditions the bending stiffness of the body 3 of the crampon 1.
According to the proposed embodiment, in a nonlimiting manner, the adjusting device 31 comprises two blades 32, 33 parallel to each other, and a rear axle 40 and a bridge before 41 which connect the blades 32, 33 to each other, the rear axle 40 being connected to the plate rear 10, the front bridge 41 being connected to the front plate 11. More precisely, screw 16 of the first link 13 cooperates with the rear axle 40 to secure it at the back plate 10. In the same vein, the screw 18 of the second link 14 cooperates with the bridge before 41 to secure it to the front plate 11. It is observed that the bridge 12, which makes the connection between the rear plates 10 and 11 before, consists of the blades 32, 33 and bridges rear 40 and before 41 of the adjustment device 31. In fact, the latter fills especially two functions, that of uniting the rear plates 10 and before 11, as well as that of to adjust the rigidity in bending of the body 3.
In practice, as is understood in particular by means of FIGS. 3 and 4, the blades 32, 33 can be oriented parallel to the reception face 9 or, alternatively, the blades 32, 33 can be oriented perpendicular to the reception face.
If the blades 32, 33 are perpendicular to the reception face 9, as can be observe in FIGS. 3 and 5, the body 3 has maximum flexural rigidity longitudinal according a transverse axis parallel to the reception face 9. In fact, in this case the mechanical inertia of blades is maximal for the bending mentioned above. As a result crampon 1 can its shape, which makes it very effective in very inclined or vertical terrain.
If on the other hand the blades 32, 33 are parallel to the reception face 9, as can observe it in FIGS. 4, 6 and 7, the body 3 has rigidity minimal flexion longitudinal axis along a transverse axis parallel to the reception face 9. In effect, in this case the mechanical inertia of the blades is minimal for the bending considered above.
before. In consequence the crampon 1 can flex, to pass alternately from the right configuration from FIG. 6 to the curved configuration of FIG. 7, which makes it suitable to follow deformations of the soleing related to the unfolding of the foot. In this case the crampon is very effective in slightly inclined or horizontal terrain.
The transition from a rigid position to a more flexible position of the body 3, which matches as we have just seen at a change of orientation of the blades, is done by simple manual operation when the crampon is separated from the shoe. Simply rotate the blades 32, 33, that is to say here the bridge 12, along the longitudinal axis L. On note that the mode of adjustment of the rigidity of the body 3 is discontinuous, in the sense that it allows to get two

6 very distinct and differentiated positions for which there is a big difference from rigidity, or flexibility, for both positions of the blades, and that these two positions are clearly differentiated: they correspond to an angular shift of 900 .
According to the embodiment still proposed, when the blades 32, 33 are parallel to the reception face 9, one of these blades is flush with the reception face. it allows the sole 23 of the shoe 2 to hold the blades in their position during the use of the crampon.
In the same spirit, when the blades 32, 33 are perpendicular to the face 9, an edge of one or more of the blades is flush with the reception face 9. This also allows during assembly 23 to keep the blades in their position during use crampon.
It is observed that the rear axle 40, which connects the blades to one another, is connected himself to the rear plate 10 by a screw-nut connection 13, the same one that connects the bridge 12 to the plate rear 10. Similarly the front axle 41, which also connects the blades 32, 33 to one another, is connected itself to the front plate 11 by a screw-nut connection 14, that one even that connects the bridge 12 to the front plate 11. We have seen that this arrangement makes the bridge 12 and the device setting 31 are one and the same element.
It is observed in addition that an elastic means 42 is disposed between the plates 10, 11.
This elastic means 42 is a spring acting between the rear axle 40 and the screw 16 of the connection screw-nut 13 which acts itself between the rear plate 10 and the bridge 12. More precisely the spring 42 pushes the screw towards the front end 5, which gives the body 3 the possibility of elastically extend reversibly at the time of fitting. The spring 42 is housed between the blades 32, 33, which makes the structure of the bridge 12 compact.
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, it can be expected that the transition from a state of high rigidity to a state of rigidity weaker, by the device for adjusting the flexural strength longitudinal of the body 3, do it continuously. In this case the mode of adjustment of the rigidity of the body 3 is continuous.
It is also possible to provide a device for adjusting the flexural strength which includes a transverse axis joint, in combination with a device for locking. In that case, the latter authorizes or not, at will, the articulation of two connected plates one to the other.

Claims (10)

1- Crampon (1) comprising a body (3) which extends in length from a end rear (4) to a front end (5), in width between a first edge (6) and one second edge (7), and in height between a bearing face (8) and a face reception (9), the crampon (1) comprising spikes (20) projecting at the face (8) as well as means (21, 22) for retaining a boot (2) at the level of the face Hospitality (9), characterized in that it comprises an adjusting device (31) of the resistance in longitudinal flexion of the body (3). 2- Cleat (1) according to claim 1, characterized in that the body (3) includes a rear plate (10) and a front plate (11), and that the adjustment device (31) is arranged between the plates (10, 11). 3- crampon (1) according to claim 2, characterized in that it includes a first retaining member (21) of the boot (2) at the rear end (4), a second retaining member (22) of the boot (2) at the front end (5), and a resilient means (42) disposed between the plates (10, 11). 4- Cleat (1) according to claim 2 or 3, characterized in that the device adjustment (31) comprises at least one blade (32, 33) extending between the plates (10, 11), each blade (32, 33) being rotatably mounted relative to the plates (10, 11) along an axis longitudinal (L) of the body (3). 5- Cleat () according to claim 4, characterized in that the adjusting device (31) comprises two blades (32, 33) parallel to one another, and a bridge rear (40) and one front bridge (4) which connect the blades (32, 33) to each other, the bridge rear (40) being connected to the rear plate (10), the front bridge (41) being connected to the front plate (11). 6- Cleat (1) according to one of claims 4 and 5, characterized by the fact that the blades (32, 33) can be oriented parallel to the reception face (9), and by the fact that the blades (32, 33) can be oriented perpendicular to the reception face. 7- Cleat (1) according to one of claims 4 to 6, characterized by the fact only when blades (32, 33) are parallel to the reception face (9), one of these blades is flush reception. 8- Cleat (1) according to one of claims 4 to 7, characterized by the fact only when blades (32, 33) are perpendicular to the receiving face (9), an edge of one or more blades are flush with the reception face (9). 9- Cleat (1) according to one of claims 5 to 8, characterized by the fact that the bridge rear (40) is connected to the rear plate (10) by a screw-nut connection (13), and the fact that front bridge (41) is connected to the front plate (11) by a screw-nut connection (14). 10-Cleat (1) according to claim 9, characterized in that the means elastic (42) is a spring acting between the rear axle (40) and the screw (16) of the screw-nut connection (13).