CA2166894A1 - Ski with a cross-country skiing device - Google Patents

Abstract

A ski comprising complementary members (11, 12, 13) for amplifying the force exerted by the skier as he or she kicks forward on the ski (1), while helping to reduce the length of an upper fibre (3) of said ski for the same purpose, and making it easier to press a wax chamber (6) of the ski (1) against the snow. Said members are arranged as the interface between the ski (1) and a binding (7) perpendicular to the wax chamber (6), and include a resilient return member enabling controlled movement of the toe portion (7a) of the binding device (7).

Description

21 6 ~ 8 ~ 1 WO 95/31259 PCT / ~ h5J / ~ 155 SKI EQUIPPED WITH CROSS-COUNTRY SKIING DEVICE
Cross-country skiing with a dynamic fixation device shoe.
The present invention relates to cross-country skiing, in particular for practice of the alternative step which is defined longitudinally by a fiber lower and an upper fiber whose distance separating them forming the thickness of the ski, is progressive to form, on the one hand two zones relatively thin and smooth end constituting the heel and ski tip and intended for the sliding phase after an impulse and on the other hand, a thicker and arched central zone at rest towards the high and defining on its lower fiber an attachment zone or wax chamber intended to come into contact with snow by elastic deformation during a pulse phase, the upper fiber of said central area receiving to the right of the wax chamber a fastening device anchoring the front of the shoe, the heel of the latter remaining free to move freely for a smooth running of the foot when skiing.
During the exercise of the alternative step, this support of the foot manifests itself between the ski sole and the snow, essentially at two points or very limited areas, well located.
When pushing forward, the skier's foot is supported at the metatarsophalangeal joint, which defines the position of the support point on the ski or support point impulse. It is at this point that the maximum of pressure to put the ski flat by elasticity against the arch of the wax chamber.
In the sliding or advancing phase of the ski, it is through the heel that the skier rests on the ski. Due to the original camber of the ski, and the relative position of the foot with respect thereto, this support of the heel leaves a residual area in front of its point of application arched which therefore corresponds to zero pressure of the ski on the ground. This is indeed in this wax area or chamber it is most advisable to apply a retaining wax or any other means to the ski sole opposing recoil, such as scales, anti-recoil chemical coating, etc .... The holding wax, or any other means, produces an effect only by its contact with the ground, that is to say during the impulse phase in preventing the ski from rolling back, by the positive reaction that the ground can then exercise on him.

WO 95/31259 PCr / FR95 / 00495 ~ 1 6 ~ 89 ~ 1 2 In order to optimize the grip of the wax chamber on snow Ways have been sought to improve the yield of the skiing by intervening on the slip-grip compromise.
It was thus determined that for better efficiency of the impulse, the top of the arch of the wax chamber must be position substantially at the level of the big toe nail and correspond to the point of balance, possibly a centimeter in back to the heel.
If the top of the aforementioned camber is not in the right place (too much before) there will be a loss of wax between the metatarsals and the heel. This zone metatarsal-heel is very important, because it corresponds, at the end of gliding phase, at the maximum pressure to be exerted for the skier, to get maximum impulse.
In addition, when taking the pulse in steps of one, the support is maximum when the foot is flat, the skier's body being above the sole foot in contact with the ground, then it is the course of the foot which causes a reduction in the pressure of the foot on the ski.
Optimization of the corresponding pulse-slide compromise successively to a motor phase and a rest phase has already been sought by trying to improve the quality of the grip during the impulse.
For this, it is known by the French document n 2,556,975 a device comprising a membrane arranged in the area of the wax chamber and can be pushed down beyond the plane lower of the ski under the effect of elastic control members solicited by a mechanism in connection with the front of the skier's foot, in order to bulge said membrane. This leads to a recess large dimensions on the bottom wall of the ski tending well heard to reduce its resistance. In addition, such a device is rather intended for braking during gliding, only on impulse.
According to German document No. 33 03 093, it is proposed to improve the grip in impulse phase by creating an essential element of the ski comprising saw teeth directed towards the rear, said element crossing the ski under the action of the foot during an impulse in order to plug a relief of the vaulted wall of the wax chamber so that the ski does not undergo a retrograde sliding effect in this phase.
Such a solution also has the disadvantage of weakening the ski and moreover does not modify the effort to be provided by the skier.

~ 1668 ~ 4 WO 95/31259 PCTI ~ h9J / ~. ^ 15S

Is also known by the French document n 2 666 021 a system again consisting in making a recess in a transverse central zone of the ski to improve its flexibility Ci ~ but by weakening it in return and without possibility of any adjustment according to the skier.
In order to remedy these various drawbacks, the invention relates to cross-country skiing in particular for the practice of alternative steps which is defined longitudinally by a lower fiber and a fiber the distance between them forming the thickness of the ski, is progressive to form, on the one hand two relatively end zones fine and smooth constituting the heel and the tip of the ski and intended for gliding phase after an impulse and on the other hand, a central zone thicker and arched at rest upward and defining on its fiber lower a grip area or wax chamber intended to come in contact with snow by elastic deformation during a phase pulse, the upper fiber of said central area receiving at right of the wax chamber a fixing device ensuring the anchoring the front of the shoe, the heel of the shoe remaining free to move freely for a smooth running of the foot during the skiing practice characterized in that during the impulse phase carried out according to a given effort of the skier, means complementary to amplify the effort provided, while contributing to reduce the length of the fibers located in the upper half of the ski between two reference points located in this area, in line with the wax chamber, are interposed at the interface between the ski and the device of fixing making it dynamic according to a controlled travel of its front part, which means are used at the time of said impulse to positively contribute to causing the deformation of the upper fibers of said chamber for the purpose of tackle more easily on snow, so that you can exercise force applied to the wax chamber, greater than the force supplied and according to a better concentration of it.
In addition to these advantages, the fact that these means give a greater speed of action in the impulse phase, benefit from a longer gliding or rest period by reducing the motor impulse phase. Also given the development of forces, the length of the wax chamber can be reduced.
We can also plan to customize the ski according to the weight of the skier and the stiffness of the ski by adjusting the efforts of the binding on WO 95/31259

2 ~ ~ 6 8 ~ 4 PCT / ~ 1 ~ 95 / 00-19S

skiing so that any skier can ski on any skn The invention will be better understood and other characteristics of these will be highlighted using the following description, in reference to the attached schematic drawing, showing by way of example non-limiting, how the invention can be implemented and in which:
- Figures 1 and 2 show a cross-country ski portion provided with amplification means according to a first embodiment of the invention, respectively in gliding phase and in pulse phase;
- Figure 3 shows a cross-country ski provided with means amplification according to a second embodiment of the invention;
- Figures 4 and 5 show a cross-country ski portion provided with amplification means according to a third embodiment of the invention, respectively in gliding phase and in pulse phase;
- Figures 6 and 7 show a cross-country ski portion provided with amplification means according to a fourth embodiment of the invention, respectively in gliding phase and in pulse phase;
- Figures 8 and 9 show diagrams showing the distribution of contact pressures between the heel and the metatarsals of the foot, respectively according to the known prior art and the invention.
As shown in Figure 1, cross-country skiing 1 is defined longitudinally by a lower fiber 2 and an upper fiber 3 whose distance "d" separating them forming the thickness of the ski 1 is progressive. This progressiveness makes it possible to form on the one hand two zones relatively thin and smooth end constituting the heel and ski tip 1, not shown in the figure, intended for the slides after an impulse and on the other hand a central area more thick and arched at rest upward, defining on its fiber lower a grip area or wax chamber 6 (see Figure 3). This chamber is intended to come into contact with snow by deformation elastic during an impulse given by the skier. The upper fiber

3 of said central zone receives, to the right of the wax chamber 6, a fastening device 7 ensuring the anchoring of the shoe 8 from the front 9, the heel 10 thereof remaining free to move freely for a smooth running of the foot when skiing. This technique is well known, it will not be developed further here.
According to the invention, various examples of embodiment of which will be cited and described below, during the pulse phase taking place according to a WO 95/31259 216 6 ~ 9 4 PCTlFR95 / oo495 effort given by the skier, additional means capable of amplifying the effort provided, while helping to reduce the length of the fibers located in the upper half d1 of ski 1 between two points of reference arranged in this area, to the right of the wax chamber 6, are interposed at the interface between the ski 1 and the binding device 7 making it dynamic according to a controlled deflection of its part before, which means are implemented at the time of said impulse to contribute positively to causing the deformation of upper fibers of said chamber 6 in order to flatten it more easily on snow, so you can exert a force of application to the wax chamber 6, greater than the force supplied and according to a better concentration of it.
According to the embodiment shown in Figures 1 and 2, the additional means of amplifying the effort provided are constituted by a weakened zone 11 carried out transversely on the upper fiber 3 of ski 1 to promote deformation of the chamber at wax 6 according to a local concentration chosen as a function of the point of maximum pressure exerted on ski 1 at the time of the pulse.
More specifically, the weakened zone 11 is produced near the front binding 7a of the shoe 8 corresponding substantially to the point maximum pressure on ski 1 at the time of the pulse.
According to the present example, the weakened zone 11 is constituted by a transverse cylindrical recess with an upper side part open 11a delimited by two generators 11b, 11c of the cylinder according to a spacing e chosen leads to the upper fiber 3 of the ski 1.
The effort exerted by the skier in the impulse phase, and corresponding to the pressure applied to said ski 1 in its weakened zone 11 is transmitted by an intermediate plate 12 made of elastic fibers, on the upper part 1 2a of which the fixing device 7 is disposed shoe 8, its lower rear part 1 2b, located at the heel 10 of shoe 8 being integral with upper fiber 3 of ski 1, while its lower front part 1 2c located at The front 9 of the shoe 8 from which its front binding 7a is free in angular displacement according to an amplitude a 1 controlled so as to be pressed against the upper fiber 3 of the ski 1 in the weakened zone 11, in an impulse phase, then to be recalled by an elastic force F in its initial position, in a sliding phase.
Figures 1 and 2 clearly show that in the sliding phase (Figure 1), the only force exerted on ski 1 is the weight P of the skier, while in WO 95/31259 2 1 ~ ~ 8 ~ ~ PCT / FR95 / 00495 pulse phase, the effort produced is added to the P value to obtain P '> P and> F, the latter value being the elastic restoring force of the intermediate plate 12.
According to another characteristic specific to this same mode of realization, the control of the amplitude of the angular movement a 1 of the front end of the elastic intermediate plate 12 is effected by two side yokes 13 arranged on the ski 1 on either side of the front end of said elastic plate 12, said yokes 13 comprising lights 14, in each of which is suitable for debate a rod 15 secured to the front end of said plate elastic 1 2.
The lights 14 used in the yokes 13 are symmetrical between them and fit into triangles in which is likely to struggle freelance 15 between on the one hand a position upper I in which it cooperates in the sliding phase, with the vertex of the triangle under the influence of the force F generated by the intermediate plate 12 and constituting its elastic return ensuring simultaneously the stiffness of the ski 1 despite the weakened zone 11 practiced on the upper fiber 3, and on the other hand a lower position ll in which said rod 15, after being released from the top of the triangle during the exercise of an effort of the skier in impulse phase, of value P ' greater than its own weight P, is free in longitudinal travel within the limits of the angle a defining the length of the base of the triangular lights 14, this so as to allow said rod 15 to perform a circular arc trajectory, during which the area weakened 11 tightens on itself (Figure 2) and thus authorizes a tacking the wax chamber 6 on the snow with better concentration of the effort P 'produced by the skier.
We also see according to Figures 1 and 2 that the length D of the upper fiber 3, in the impulse phase and consequently of the wax chamber 6, is less than the length D in the sliding phase.
According to an alternative embodiment shown in FIG. 3, the additional means of amplitude of the effort provided by the skier in pulse phase consist of a cable 16, one of its ends 1 6a is integral with one of the reference points 17 of the upper fiber 3 disposed towards the tip 5 of the ski 1.
The cable 16 fixedly connects a rear part 7b of the device attachment 7 in the heel area 10 by an intermediate pulley 18 WO 95/31259 216 6 8 9 4 PCTt ~ 95/00495 _ 7 constituting the second reference point disposed towards the heel 4 of the ski 1.
In this way, the fixing movement 7 relative to the ski 1 to which it is connected by a fixed intermediate point of rotation 19 causes in the pulse phase, a traction of the cable 16 exerting a energizing the upper fiber 3 of the ski 1, contributing to apply the wax chamber 6 to the snow.
According to an alternative embodiment shown in FIGS. 4 and 5, additional means of amplifying the effort provided by the impulse skier consists of a cable 20, one of which of its ends 20a is integral with a first reference point 21 located on the upper fiber 3 of the ski 1, disposed towards its tip 5, at the opposite of a second reference point 22 constituting a point of articulation of the fixing device 7. The cable 20 fixedly connects a lower part 23a of a rod 23 interposed between the fiber upper 3 of ski 1 and lower face 7c of said device attachment 7. Said link 23 is integral with the latter by through a joint 23b, its other end 23a directed towards the upper fiber 3 of the ski 1 being free in angular movement and connected to the other end 20b of the cable 20. In this way, when the supply of a force P 'exerted on the fixing device 7, at during an impulse phase, the rod 23 describes a movement in circular arc until it is flattened by driving cable 20, which consequently causes a pull on the first reference point 21 hence the upper fiber 3 of the ski 1.
Thus under the pressure of the weight P of the skier to the metatarsals, therefore P 'at the moment of the pulse, the angle a3 becomes a4, ie: a3> a4. The rod 23 closes and causes cable 20 to move back towards fixing 7 causing the length D to decrease becoming D 'because the points of reference 21 and 22 are fixed on the upper fiber 3 of the ski 1. By Consequently, if D> D 'the ski 1 becomes flat and the wax chamber 6 touches the snow.
Such a device interposed between the binding device 7 and the ski 1 has the effect of delaying the support signal on the wax chamber 6 which has the positive consequence of increasing the sliding phase.
As already mentioned, amplifying the effort increases the support of the wax chamber and allows the support on the snow to be maintained according to a lower P 'value, which has the positive consequence of increasing the hanging phase.

wo 95/31259 2 ~ ~ 6 8 9 ~ PCT / FR9S / 0049S

According to a fourth variant shown on the Figures 6 and 7, the additional means of amplifying the effort provided by the skier in impulse phase are constituted by a plate 25 interposed between the upper fiber 3 of the ski 1 and the attachment 7, its end 25b directed towards the spatula 5 is connected by a first articulation 26 at the upper end of a lever vertical control 27.
The control lever 27 passes through the upper fiber 3 of the ski 1 to dive into a blind recess 28 made in the soul of skiing in a upper zone thereof, the lower end of the vertical lever 27 comprising a second articulation 29 on which are articulated at their tower, by one of their ends, two rods 30, 31 each of which their other ends are connected respectively to a third and to a fourth articulation 32, 33.
The latter are in connection with the end 34a of a first cable 34 integral with a first fixed reference point 36 of the ski 1 directed towards the heel 4 and with the end 35a of a second cable 35 secured to a second fixed reference point 37 of ski 1 directed opposite the first 36, towards the spatula 5.
In this way, during a downward action of the lever 27, during of an impulse phase, this causes the two to descend rods 30, 31 causing by deformation of their geometry, a traction on the two cables 34, 35, driving them towards each other and consequently exerting traction on at least one of the fibers of the skl 1 located in its upper half d1 of the wax chamber 6 on the nelge.
Furthermore, the traction cables 34, 35 join their points of respective reference 36, 37 by means of sheaths practiced in the soul of ski 1, in its upper half d1.
The elastic return of the control lever 27 after a phase momentum is effected by the elasticity of the support plate intermediate 25 of the fixing device 7.
Preferably or jointly, as shown in the figures 6 and 7, the elastic return of the control lever 27 after a phase pulse is effected by a compression spring 38 interposed between the end of said lever 27 in articulated connection with the links 30, 31 and the bottom 28a of the housing 28 of the ski 1 in which it dives.

21 6 ~ 89 ~
WO 95/31259 PCTI1 ~ 1 ~ 55 / [l ~ 195 We will now proceed, in a general manner to the comparison of the diagrams noted when using a ski classic and a ski provided with a dynamic binding according to the invention.
For a classic ski intended primarily for alternative pitch, we realizes, as illustrated in figure 8, that this distribution of pressure along ski 1 is not ideal. This diagram represents the contact pressure PC on the ordinate, depending on the position on the ski on the abscissa, between the tip 5 and the heel 4 of the ski, respectively in the pulse phase, in phantom, and in the sliding phase, Full line. The impulse and heel support points are respectively referenced by A and B. It can be seen that if, in the phase for sliding or supporting the heel, the wax chamber 6, or zero pressure, does exist, during the impulse phase (line mixed), the pressure, which is obtained at the point of pulse A, is in fact distributed on both sides of this point very broadly and diffuse on the one hand, and with relatively little intensity, in the zone of the wax chamber 6 on the other hand, which very significantly harms the effectiveness of the impulse.
Compared to the diagram in Figure 8, the diagram in figure 9 shows in which advantageous proportions the curve impulse, with a ski provided with amplification means according to the invention, in dotted lines, reaches a value of force exerted on the ski, much higher in this phase (4.5 kg instead of 2.2 kg, more than double), while in the sliding phase, in solid lines, the effort is decreases.

Claims (13)

1- Cross-country skiing (1), in particular for the practice of the alternating step, which is defined longitudinally by a lower fiber (2) and a fiber upper (3) whose distance separating them, forming the thickness of the ski (1), is progressive to form, on the one hand, two end zones relatively fine and smooth constituting the heel (4) and the spatula (5) of the ski (1) and intended for the gliding phase after an impulse and on the other hand, a thicker, vaulted central area resting upwards and defining on its lower fiber a grip zone or room to wax (6) intended to come into contact with the snow by deformation elastic during an impulse phase, the upper fiber (3) of said central zone receiving, to the right of the wax chamber, a device for binding (7) ensuring the anchoring of the front (9) of the boot (8), the heel (10) thereof remaining free to move freely to good rolling of the foot when skiing, characterized in that that during the impulse phase taking place according to a given effort of the skier, additional means able to amplify the effort provided, while helping to reduce the length of the fibers located in the upper half (d1) of the ski (1) between two reference points arranged in this area, in line with the wax chamber (6), are interposed at the interface between the ski (1) and the binding device (7) making it dynamic according to a controlled deflection of its part before, which means are implemented at the time of said impulse to contribute positively to cause the deformation of the upper fibers of said chamber (6) with a view to pressing it more easily on the snow, so as to be able to exert a force application on the wax chamber (6), greater than the effort provided and according to a better concentration of it. 2- Ski according to claim 1, characterized in that the means complementary amplification of the effort provided consist of a weakened zone (11) made transversely on the fiber upper (3) of the ski (1) to promote the deformation of the chamber wax (6) according to a local concentration chosen according to the point of maximum pressure exerted on the ski (1) at the moment of the impulse. 3- Ski according to claim 2, characterized in that the zone weakened (11) is made close to the front attachment (7a) of the shoe (8) substantially corresponding to the pressure point maximum on the ski (1) at the moment of the impulse. 4- Ski according to claim 2 or 3, characterized in that the zone weakened (11) is constituted by a transverse cylindrical recess including an open upper lateral part (11a) delimited by two generating lines (11b, 11c) of the cylinder according to a spacing (e) chosen, leads to the upper fiber (3) of the ski (1). 5- Ski according to one of claims 2 to 4, characterized in that the effort exerted by the skier in the impulse phase, and corresponding to the pressure applied to said ski (1) in its weakened zone (11), is transmitted by an intermediate plate (12) made of elastic fibers, on the upper part (12a) of which the fastening device is arranged (7) of the boot (8), its lower rear part (12b), located at the level of the heel (10) of the shoe (8) being integral with the fiber upper (3) of the ski (1), while its lower front part (12c) located at the front (9) of the shoe (8) hence its attachment front (7a) is free in angular displacement according to an amplitude (a1) controlled so as to be pressed against the upper fiber (3) of the ski (1) in the weakened zone (11), in its pulse phase, then to be recalled by an elastic force (F) to its initial position, in a sliding phase. 6- Ski according to claim 5, characterized in that the control of the amplitude of the angular deflection (a1) of the front end of the elastic intermediate plate (12) is effected by two lateral yokes (13) arranged on the ski (1) on either side of the front end of said elastic plate (12), said yokes (13) comprising slots (14), in each of which a rod is able to move (15) integral with the front end of said elastic plate (12). 7- Ski according to claim 6, characterized in that the lights (14) performed in the yokes (13) are symmetrical to each other and fit into triangles in which is likely to debating the rod (15) between on the one hand an upper position (1) in which it cooperates in the sliding phase, with the vertex of the triangle under the influence of the force (F) generated by the intermediate plate (12) and constituting its elastic return simultaneously ensuring the stiffness of the ski (1) despite the weakened zone (11) practiced on the fiber upper (3), and on the other hand a lower position (11) in which said rod (15), after having emerged from the apex of the triangle during the exercise of an effort by the skier in the impulse phase, of value (P') greater than its own weight (P), is free in longitudinal movement within the limits of the angle (a) defining the length of the base of the triangular slots (14), so as to allow said rod (15) to carry out a trajectory in an arc of a circle during which the area weakened (11) tightens on itself and thus allows a tackle wax chamber (6) on snow with better concentration effort produced by the skier. 8- Ski according to claim 1, characterized in that the means complementary to the amplitude of the effort provided by the skier in phase impulse are constituted by a cable (16) of which one of its ends (16a) is integral with one of the reference points (17) of the upper fiber (3) arranged towards the tip (5) of the ski (1) and connecting fixedly a rear part (7b) of the fixing device (7) in the heel area (10) by an intermediate pulley (18) constituting the second reference point arranged towards the heel (4) of the ski (1) so that the binding travel (7) relative to the ski (1) to which it is connected by a fixed intermediate point of rotation (19) causes in phase impulse, pulling the cable (16) exerting a tension of the upper fiber (3) of the ski (1), helping to apply the chamber to wax (6) on the snow. 9- Ski according to claim 1, characterized in that the means additional amplification of the effort provided by the skier in pulse phase are constituted by a cable (20) of which one of its ends (20a) is integral with a first reference point (21) located on the upper fiber (3) of the ski (1), arranged towards its tip (5), opposite a second reference point (22) constituting a point articulation of the fixing device (7), said cable fixedly connecting a lower part (23a) of a connecting rod (23) interposed between the fiber upper (3) of the ski (1) and the underside (7c) of said device for fixing (7), said connecting rod (23) being secured to the latter (7) by via a joint (23b), its other end (23a) directed towards the upper fiber (3) of the ski (1) being free in movement angular and connected to the other end (20b) of the cable (20), so as to that during the supply of a force (P') exerted on the device of fixing (7) during an impulse phase, the connecting rod (23) describes a movement in an arc of a circle until flattening, dragging the cable (20), which consequently causes traction on the first point reference (21) hence on the upper fiber (3) of the ski (1). 10- Ski according to claim 1, characterized in that the means additional amplification of the effort provided by the skier in pulse phase consist of a plate (25) interposed between the upper fiber (3) of the ski (1) and the binding device (7), its end (25b) directed towards the spatula (15) is connected by a first hinge (26) at the upper end of a control lever vertical (27) crossing the upper fiber (3) of the ski (1) to dive in a blind recess (28) formed in the core of the ski in a zone upper part thereof, the lower end of the vertical lever (27) comprising a second articulation (29) on which are articulated at their turn, by one of their ends, two rods (30, 31) of which each of their other ends are connected respectively to a third and to a fourth articulation (32, 33) in connection with the end (34a) of a first cable (34) secured to a first point of fixed reference (36) of the ski (1) directed towards the heel (4) and with the end (35a) of a second cable (35) secured to a second reference point fixed (37) of the ski (1) directed away from the first (36), towards the spatula (5), so that during a downward action of the lever (27), during of an impulse phase, this one involves in its descent the two rods (30, 31) causing by deformation of their geometry, a traction on the two cables (34, 35), driving them towards each other and consequently exerting a traction on at least one of the fibers of the ski (1) located in its upper half (d1) of the wax chamber (6) on snow. 11- Ski according to claim 10, characterized in that the cables of traction (34, 35) join their respective reference points (36, 37) via sheaths made in the core of the ski (1), in its upper half (d1). 12- Ski according to one of claims 10 or 11, characterized in that the elastic return of the control lever (27) after a phase of impulse is carried out by the own elasticity of the support plate intermediate (25) of the fixing device (7). 13- Ski according to one of claims 10 or 11, characterized in that the elastic return of the control lever (27) after a phase impulse is effected by a compression spring (38) interposed between the end of said lever (27) in articulated connection with the rods (30, 31) and the bottom (28a) of the housing (28) of the ski (1) in which it dives.