EP0713410A1 - Ski de fond - Google Patents

Ski de fond

Info

Publication number
EP0713410A1
EP0713410A1 EP95919472A EP95919472A EP0713410A1 EP 0713410 A1 EP0713410 A1 EP 0713410A1 EP 95919472 A EP95919472 A EP 95919472A EP 95919472 A EP95919472 A EP 95919472A EP 0713410 A1 EP0713410 A1 EP 0713410A1
Authority
EP
European Patent Office
Prior art keywords
ski
plate
assembly
connecting means
heel
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP95919472A
Other languages
German (de)
English (en)
French (fr)
Inventor
Dominique Deville
Jacques Quellais
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Salomon SAS
Original Assignee
Salomon SAS
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Salomon SAS filed Critical Salomon SAS
Publication of EP0713410A1 publication Critical patent/EP0713410A1/fr
Withdrawn legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C7/00Devices preventing skis from slipping back; Ski-stoppers or ski-brakes
    • A63C7/005Devices preventing skis from slipping back, actuated by the boot
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B5/00Footwear for sporting purposes
    • A43B5/04Ski or like boots
    • A43B5/0411Ski or like boots for cross-country
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B5/00Footwear for sporting purposes
    • A43B5/04Ski or like boots
    • A43B5/0496Ski or like boots boots for touring or hiking skis
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C5/00Skis or snowboards
    • A63C5/06Skis or snowboards with special devices thereon, e.g. steering devices
    • A63C5/07Skis or snowboards with special devices thereon, e.g. steering devices comprising means for adjusting stiffness

Definitions

  • the present invention relates to the field of sliding sports, such as skiing.
  • the invention relates more particularly to an assembly intended for the practice, permanent or temporary, of the alternative step, such as that practiced in particular in cross-country skiing, in cross-country skiing or in telemark.
  • a ski intended for the practice of the alternative step generally comprises an upper face, a lower face, two end zones forming a heel and a toe, and a central zone defining in particular a hooking zone or wax chamber. .
  • the skier performs a movement reminiscent of that of walking, in the sense that each foot is alternately in support at the metatarsophalangeal joint or in support at the heel, on the upper side of the ski.
  • the metatarsophalangeal support corresponds to an impulse phase given by the skier, for forward progression, and defines an impulse support area. It is at this zone that a maximum effort is exerted to bring the central zone of the underside of the ski into contact with the snow.
  • the heel support corresponds to a gliding phase during which the central area is far from the snow.
  • the alternative step therefore results in a succession of lowering and raising of the hanging area. It is essential that the lowering is done easily to allow a great contact pressure to be obtained from the area of grip on the snow, and it is equally essential that the ascent is also done easily in order to avoid any contact of the area with snowfall during the gliding phase.
  • the main function of the hang zone is to prevent the ski from backing up during the impulse phase.
  • This area can be covered by a retaining wax, scales, a seal skin, a chemical anti-kickback coating or any other means.
  • the hanging zone must not touch the ground during the gliding phase, so as not to rub the wax or the other means, which would be detrimental to a good longevity of use or to a good quality of gliding .
  • the traditional prior art has taken this problem of quality of gliding into account, and generally proposes skis whose arched profile defines an upward camber, and keeps the hanging area well away from the ground during the sliding phase.
  • an important drawback of traditional skis is that the skier must have good movement dynamics in order to act on the camber of the ski and make the tackle area tackle. As a result, the impulse is generally not strong enough and the ski tends to reverse during the impulse phase.
  • a more recent prior art has sought to remedy this drawback by proposing a ski whose flexural rigidity is weakened compared to traditional skis.
  • This is the case of the ski proposed by the applicant in document FR 2 666 021, where a transverse slot is formed in the central zone of the ski, substantially between the upper face and the lower face.
  • This ski whose flexural rigidity is weakened by the slit, allows the skier to make the tackle area tackle with a lot of ease.
  • An advantage is that the ski no longer moves back during the impulse phase.
  • the reduced rigidity of the weakened ski does not allow it to regain the camber necessary for the gliding phase. Therefore, excessive friction occurs during this last phase, which causes the removal of the wax from the wax chamber and / or a significant braking effect.
  • the object of the present invention is to remedy these drawbacks and to provide an assembly intended for skiing, making it possible to reduce the forces that must be exerted by the skier to make the tackle zone tackle during the phase of momentum, while regaining camber during the gliding phase, without prejudice to the life of the ski.
  • the invention proposes an assembly intended for the practice of skiing, in particular in alternative pitch, comprising a ski intended to receive the foot of a skier, and having an upper face, a lower face, two end zones constituting a heel and a toe, a central zone defining in particular a grip area or wax chamber, as well as means increasing the bending stiffness of the ski so as to maintain or increase the lifting in the vertical direction of the underside of the ski at least in part of the hanging area, when lowering the heel of the foot.
  • Such an assembly is dynamic in the sense that its flexural rigidity varies during its use by a skier on a ground preferably covered with snow, depending on the forces exerted by the skier.
  • the means for holding or lifting the ski attachment zone include in particular a plate, disposed above the upper face and maintained substantially in the central zone of the ski by a front connection means and by a rear connection means .
  • These connecting means can be stops, between which the plate of the assembly is immobilized.
  • the plate When the foot is flat, that is to say in heel support, the plate is held against the ski; the whole is then rigid and the ski is arched, allowing optimum gliding.
  • the foot bears only at the metatarsal level as a result of the heel lift, the plate deforms with the ski and the ski is pressed against the ground, allowing optimum impulse taking.
  • the plate allows the assembly to be rigid if the skier is in heel support, but it does not interfere with the flexing of the ski when the skier is in support on the metatarsals.
  • the assembly has all the advantages of the prior art without having the disadvantages.
  • the plate can be prestressed in the direction of its length, depending on the desired overall stiffness.
  • the length of the plate is equal to the distance between the connecting means or the stops, the plate is not prestressed. In this case, the assembly obtained is suitable for use by a skier of modest level.
  • the plate is prestressed.
  • the set is more rigid and well suited to a skier who practices competition.
  • the ski according to the assembly can advantageously have at least one variation in flexural rigidity in the central zone.
  • FIG. 1 is a diagram of an assembly comprising a ski in the sliding phase
  • FIG. 2 is a diagram of an assembly comprising a ski in impulse phase
  • FIG. 3 is a diagram for comparing the length of the plate with respect to the distance separating the connecting means
  • FIG. 4 is a diagram of a shoe resting on an assembly in the sliding phase
  • FIG. 5 is a diagram of a shoe resting on an assembly in the impulse phase
  • FIG. 6 is a diagram of a variant of the assembly
  • FIG. 7 is a section on VII-VII of FIG. 4,
  • FIG. 8 is a section on VIII-VIII of FIG. 7,
  • FIG. 9 is a perspective view of a hinge connecting the plate to the ski.
  • FIG. 10 shows in perspective a bonding of one end of the plate to a ski
  • FIG. 12 is an example of a ribbed plate
  • FIG. 13 is a section along XIII-XIII of FIG. 12,
  • FIG. 14 is a section on XIV-XIV of FIG. 13,
  • FIG. 15 is a section along XV-XV of FIG. 14,
  • FIG. 16 is a diagram of a ski whose section of the central zone varies
  • FIGS. 17 to 20 are diagrams of the central zone of a ski, illustrating different embodiments of a weakening of the flexural stiffness in a longitudinal direction of the ski,
  • FIG. 21 is a perspective view of an assembly according to a preferred embodiment
  • FIG. 22 is a section along XXII-XXH of FIG. 21,
  • FIG. 23 is a section along XXIII-XXIII of FIG. 21,
  • FIGS. 24 and 25 represent diagrams showing the distribution of the contact pressures between the heel and the metatarsals of the foot, respectively according to the known prior art and the invention
  • FIG. 26 is a partial section view, similar to FIG. 23, of an assembly according to another embodiment in the sliding phase,
  • FIG. 27 is a view similar to FIG. 26 of an assembly in pulse phase
  • FIG. 28 is a view of a detail of embodiment of the assembly of FIGS. 26 and 27.
  • FIG. 1 shows diagrammatically an assembly 1 composed in particular of a ski 2 and a plate 3 fixed to the ski 2 by means of a front connection means 4 and a rear connection means 5.
  • Ski 2 comprises an upper face 6, a lower face 7, a front end or toe 8, a rear end or heel 9, as well as a central zone defining on the lower face 7 a hanging zone or wax chamber 10 plumb with which the plate 3 is arranged.
  • the ski 2 of the assembly 1 of FIG. 1 is shown in side view in a position which corresponds to a sliding phase.
  • the ski 2 is supported on the ground 11, symbolized by a broken line, only by contact with the heel 9 and the toe 8.
  • the wax chamber 10 is distant from the ground 11.
  • the plate 3 is substantially parallel to the upper face 6 of the ski 2.
  • This scenario occurs when a foot, not shown in FIG. 1, is flat on the ski, in heel support, and presses substantially downwards so that the plate 3 is kept close to the upper face 6 of the ski 2.
  • the force P1 exerted by the skier's foot at the heel has acted to increase the bending stiffness of the ski 2 so as to maintain or increase with respect to the ground 11 the lifting in the vertical direction of the underside 7 of the ski 2, that is to say the camber of the ski, at least in a part of the attachment zone 10, and thus allow an optimum sliding phase.
  • connection means 4 and 5 approach each other at the same time as the attachment zone 10 of the ski 2 comes into contact with the ground 11.
  • the assembly 1 therefore behaves like a dynamic system which oscillates between two extreme positions, one being that of the gliding phase and the other being that of the impulse phase.
  • the assembly 1 allows the skier to:
  • the connecting means 4, 5 can be constituted by simple stops in the vertical and longitudinal direction.
  • the dynamic assembly 1 is very suitable for a skier of low or poorly trained level, or for a skier who advances on uneven terrain.
  • Another case consists in choosing a length d1 slightly greater than the length d2 so that the plate 3 is prestressed in the longitudinal direction.
  • the assembly 1 operates in a manner close to the previous case.
  • the difference between the lengths d1 and d2 means that, in the sliding phase, the connecting means 4 and 5 are stressed, and therefore further apart; the efforts F1 and F2 are greater and the ski 2 arches more for the same effort P1.
  • This steeper set 1 is well suited to high-level skiers and for use in competition, because it has the advantage of working well when the alternative step is practiced at a high rate, as is the case in sporting events.
  • the assembly 1 therefore has the advantage of being able to satisfy all types of skiers, ensuring good grip on the ground and good gliding whatever the conditions of use. It suffices that the lengths d1 and d2 are adapted to the conditions of use of the assembly 1.
  • Such an adjustment means 14 can for example be interposed between the front stop 4 and the plate 3, as shown in FIG. 4.
  • the adjustment means 14 allows the prestressing of the plate 3 to be adjusted in the longitudinal direction.
  • the assembly 1 equipped with the adjustment means 14 according to FIG. 4 corresponds to a sliding phase, as for FIG. 1.
  • the principle remains the same as in the case of Figure 1 previously described.
  • the assembly 1 shown in Figure 5 corresponds to a pulse phase.
  • the heel 18 of the shoe 16 is raised relative to the plate 3, which allows the front of the foot to press down, exerting a force P2, to make the wax chamber 10 on the ground 11, while allowing the plate 3 to deform over at least part of its length, as in the case of FIG. 2.
  • FIG. 6 represents an alternative embodiment for which the binding 15 is linked directly to the upper face 6 of the ski 2.
  • the plate 3, the stops 4 and 5 and the adjustment means 14 are arranged a little further back on the ski 2.
  • the operation is similar to the previous case.
  • the important thing is that the plate 3 causes the lift of the ski 2 at the level of the wax chamber 10.
  • the adjustment means 14 will advantageously make it possible to adapt the same set 1 to different styles of use by the skier.
  • a first solution is simply to make sure to eliminate any operating clearance between the front stop 4, the adjustment means 14, the plate 3 and the rear stop 5, so that no force is applied to the plate in a substantially longitudinal direction.
  • the absence of play is easily identified: it suffices to consider the assembly 1 at rest, that is to say placed flat on the ground 11, without contact with the skier's shoe.
  • the play is zero when the lower face 19 of the plate 3 is substantially in contact with the upper face 6 of the ski 2.
  • a second solution consists in ensuring that a prestress is exerted on the plate 3 in a substantially longitudinal direction.
  • the length d1 of the plate 3 is slightly greater than the distance d2 between the stops 4, 5, and the prestressing causes, in the absence of any stress on the plate 3, a deformation in said plate 3.
  • the deformation is small when the heel presses down, and it is greater when an impulse is given by the skier at the level of the metatarsals.
  • the adjustment means 14 comprises, according to a nonlimiting example, two sectional views of which are shown in FIGS. 7 and 8, two movable cams 20, 21 placed between one of the connecting means 4, 5 and the plate 3, and two means of locking 22, 23 which immobilize each cam 20, 21 in a desired position.
  • the section of Figure 7 is substantially parallel to the upper face 6 of the ski 2.
  • An adjustment screw 24 passes through the cam 21, passing through a smooth hole 25 of this cam 21, to end in a threaded hole 26 of the cam 20.
  • a spring 27 traversed lengthwise by the screw 24 is also located between the cams 20 and 21 which it moves away from one another.
  • a rotation in one direction or another of the adjusting screw 24 allows to approach or move the cams 20 and 21 relative to each other.
  • the cam 20 is supported by a surface 28 on a surface 29 of the stop 4.
  • the cam 21 is supported by a surface 30 on the surface 29 of the stop 4.
  • the cam 20 is bevelled and comes into contact with an inclined surface 31 of the plate 3, by a surface 32.
  • the cam 21 is bevelled and comes into contact with an inclined surface 33 of the plate 3, by a surface 34.
  • the external dimensions of the cams 20 and 21 are identical.
  • a complementary means makes it possible to immobilize a cam 20, 21 in a desired adjustment position.
  • a locking screw 22, 23 first passes through a hole 35 in an upper wall of the connecting means 4, then a slot 36, 37 of the cam 20, 21 to be screwed into the ski 2. It suffices to tighten the screw 22, 23 for locking the position of the cam 20, 21 relative to the upper face 6 of the ski 2.
  • the slot 36, 37 allows the cam 20, 21 to move before immobilization.
  • the tightening is done by a pressure exerted by the head of the screw 22, 23 on the contact surface 38.
  • Each cam 20, 21 remains in contact with the stop 4, which is maintained on the ski 2 everywhere, such as screws 39.
  • the adjustment means 14 has the advantage of being economical, simple and effective.
  • the adjustment structure which has just been described corresponds to a connecting means 4 or 5 of the stop type.
  • connection means can for example be, as shown in FIG. 9, an articulated connection 40.
  • one end of the plate 3 is articulated by an axis 41 on a base 42.
  • the base 42 is secured to the ski for example by screws 39.
  • the end of the plate 3 can pivot around the axis 41 when it deforms.
  • Each of the connecting means 4 or 5 can also be, as shown in FIG. 10, a layer 43 of material with adhesive properties such as an adhesive. Layer 43 is only provided at the ends of the plate 3 on the upper face 6, so that a deformation can occur on this plate 3.
  • connection means 4 and 5 of the plate 3 on the upper face 6 of the ski makes it possible to envisage all the possible mounting combinations.
  • the material used for the production of such a plate 3 can be a metal, a composite material containing fibers, a plastic or even wood.
  • the deformation during the pulse phase is located substantially in the reduced thickness zone "e".
  • the skier's foot will be positioned, relative to the plate 3, so that the flexural rigidity of the plate 3 towards the front of the foot is greater than the flexural rigidity at the heel 18.
  • ribs 44 give a light plate structure; they can only reinforce a certain length of the plate 3 when their thickness varies.
  • FIG. 12 Three sections of FIG. 12 successively show a thick zone I of the plate 3 in FIG. 13, an intermediate zone II of average thickness of the plate 3 in FIG. 14, and a zone of reduced thickness III in FIG. 15 .
  • the thickness of the plate 3, in the zones I, II, corresponds to the height of the ribs 44.
  • the ski 2 of the assembly 1 advantageously has at least one variation in flexural rigidity in the central zone, this variation in rigidity being provided to allow optimal flat of the ski in the area of attachment (or wax chamber) thereof, when raising the heel (metatarsal support).
  • This variation in flexural rigidity is preferably local and punctual and can be obtained, for example, by a variation in cross section of the ski 2 in the central zone, as shown in FIG. 16.
  • a reduction in thickness of the ski 2 is produced substantially at the level of the skier's foot, and results in a reduction in the stiffness of the ski 2.
  • This reduction is relative and corresponds to a difference compared to a conventional ski such as that of the assembly 1 of FIG. 1. It appeared that an assembly 1 formed in particular of a plate 3 for increasing the stiffness of the ski in heel support and of a weakened ski 2, makes it possible to exploit even better the dynamic effects generated by the successive deformations of the plate 3, without having the drawbacks of the systems known up to now.
  • Other embodiments of a localized weakening of the ski 2 are shown successively, and without limitation, in FIGS. 17, 18, 19 and 20.
  • the upper layer 45 of the ski 2 is made of at least one fiber ribbon, the thickness or the number of layers of which is locally reduced or reduced in the central zone "c".
  • the upper layer 45 of the ski 2 is at least partially interrupted at "i" substantially in the central zone.
  • FIG. 19 proposes a weakening of the ski 2 obtained by making a slot 46 between the upper face 6 and the lower face 7, substantially at the level of the central zone.
  • the ski 2 shows a relative weakening by separation of two reinforcements 47, 48 located on the upper face 6 of the ski 2, substantially at the level of the central zone, which leave between them a space 49 where the flexural stiffness of ski 2 is less.
  • each reinforcement acts by stiffening the part of the ski on which it is fixed.
  • the structure of said assembly is provided in such a way that the deformation of the plate 3 is produced substantially under the heel of the skier.
  • FIG. 21 An assembly 1 according to a preferred embodiment is shown in perspective in Figure 21.
  • the plate 3 is positioned substantially on the upper face 6 of the ski 2 between two front and rear stops 4 and 5. These stops hold the plate 3 in a longitudinally and vertically with respect to the ski 2.
  • At least one additional means 50 integral with the ski 2, called anti-lifting means, makes it possible to prevent the lifting of the plate 3 relative to the ski 2 over at least part of its length.
  • This means 50 may for example be a shouldered screw fixed in the ski 2.
  • the shouldered screw 50 is housed in a groove 51 formed in the plate 3, which prevents it from protruding above said plate 3.
  • a shoulder 52 of the screw 50 tangents the walls 53 , 54 of a slot 55 formed in the bottom of the groove 51 of the plate 3. This shoulder 52 prevents the plate 3 from moving laterally relative to the ski 2 because the width of the slot 55 is substantially equal to the diameter of l shoulder 52.
  • the head 56 of the shouldered screw 50 protrudes on each side of the slot 55 and prevents, by its underside of head 57, a separation in the vertical direction of the plate 3 relative to the ski 2. Nevertheless, as can be seen at FIG. 23, the slot 55 made in the longitudinal direction of the ski 2 and of the plate 3 allows a relative displacement of the plate 3 relative to the upper face 6 of the ski 2. This phenomenon occurs when the camber of the ski changes, to switch alternately from a sliding phase to a pulse phase.
  • the shouldered screw 50 is located in the support area of the foot metatarsals.
  • a wedge 58 fixed to the ski 2, for example by screws 39, supports the thin rear part of the plate 3.
  • At least one seal of flexible material such as rubber or silicone, can be added to each side of the plate 3.
  • This seal not shown, has the function of preventing any foreign body from coming between the plate 3 and the upper face 6 of the ski 2.
  • Figures 26 to 28 show a preferred embodiment 101 of the invention allowing perfect integration thereof with the bindings 105 for cross-country skiing, of the type known under the trade name SNS Profil, that is to say comprising a long guide edge 107 extending over the entire length of the foot.
  • the ski 102 is provided in its upper layer 145 with two weakenings 146 constituted in this case by two transverse slots 146 arranged substantially on either side of the attachment area of the ski commonly called "wax chamber".
  • transverse slots 146 The location of these transverse slots 146 is determined according to the ski. Of course, these transverse slots can in the present case be replaced by any other weakening means described above, or even be eliminated.
  • a longitudinal plate 103 is provided to increase the bending stiffness of the ski during the gliding phase.
  • This plate 103 which is preferably made of composite material but can also be made of any other material, is fixed to the ski, at its front end 103a, by means of the screws 106 of the binding 105, and extends under any the length of this binding 105 and of its guide edge 107 covering the entire weakened area of the ski and in particular the two slots 146.
  • the rear end 103b of the plate 103 is free in translation and can therefore slide relative to the ski when it bends, until it comes into abutment against a connection block 111 forming an abutment and fixed, in a manner known in self and for example by screw, on the ski.
  • Means known per se and already described with reference to Figures 21, 22, may be provided to allow the sliding of the plate 103 relative to the ski while preventing a displacement in the vertical direction or lifting thereof.
  • an actuating plate 110 On the stop 111 is fixed, for example by means of a screw 112, the end of an actuating plate 110.
  • This plate 110 is moreover fixed at its other end, for example by a pin 113, to the plate 103 by means of another stop member 114 itself fixed on this plate.
  • the fixing pins 112, 113 of the plate 110 can be replaced by other connecting means, including by simple stops.
  • the plate 110 extends in a longitudinal opening 108 formed in the guide edge 107.
  • the actuation plate 110 connects the rear end 103b of the stiffening plate 103 to the ski.
  • the stop 111 is chosen so as to define a clearance between the rear end 103b of the plate and the stop face 111b, in the cambered position of the ski (FIG. 26), and to come into abutment with this end 103b only beyond a "flat" position of the ski.
  • the plate 103 When a force P2 is exerted by the foot at the level of the metatarsals, during the lifting of the heel, the plate 103 accompanies the downward flexing of the ski 102, which comes to be pressed against the ground. During this movement, the plate 103 slides until it comes into abutment against the abutment member 111, its coming into abutment stiffens the ski again and stops the downward bending of the ski to a predetermined value sufficient for tackling of the wax chamber whatever the terrain and the snow.
  • the actuating plate 110 which has no freedom of movement in the longitudinal direction and which is linked on the one hand to the plate 103, and on the other hand to the ski, deforms in buckling upwards at through the opening 108 of the guide edge.
  • the skier puts his foot flat and exerts, by the support of his heel, a force P1 on the raised part of the actuation plate 110, which has the effect of stiffening the skiing by tensioning the plates 103, 110, and giving it back its camber as shown in FIG. 26.
  • this embodiment has the advantage of excellent integration into the fixing device, only the actuating part 110 appearing outside, and therefore being both more aesthetic and less sensitive to the possible presence of snow.
  • FIG. 28 illustrates an example of mounting between stops of the actuating plate 110.
  • the plate is provided at each end with a connecting block 115 cooperating with slightly inclined axial fingers 116, 117, blocks of link respectively 111, 114.
  • the finger 116 is mounted at the end of a screw 118 allowing, by its actuation, to put a greater or lesser preload on the actuation plate 110.
  • FIG. 24 For a conventional ski intended essentially for alternative pitch, it can be seen, as illustrated in FIG. 24, that this pressure distribution along the ski 2 is not ideal.
  • This diagram represents the contact pressure PC on the ordinate, as a function of the position on the ski on the abscissa, between the front end 8 and the heel 9 of the ski, respectively in the impulse phase, in phantom, and in the sliding phase, in solid lines.
  • the impulse and heel support points are respectively referenced by A and B.

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)
EP95919472A 1994-05-11 1995-05-04 Ski de fond Withdrawn EP0713410A1 (fr)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
FR9405952 1994-05-11
FR9405952A FR2719780B1 (fr) 1994-05-11 1994-05-11 Dispositif pour ski de fond et ski équipé d'un tel dispositif.
PCT/FR1995/000577 WO1995031260A1 (fr) 1994-05-11 1995-05-04 Ski de fond

Publications (1)

Publication Number Publication Date
EP0713410A1 true EP0713410A1 (fr) 1996-05-29

Family

ID=9463224

Family Applications (1)

Application Number Title Priority Date Filing Date
EP95919472A Withdrawn EP0713410A1 (fr) 1994-05-11 1995-05-04 Ski de fond

Country Status (9)

Country Link
US (1) US5829776A (no)
EP (1) EP0713410A1 (no)
CA (1) CA2166893A1 (no)
CZ (1) CZ9596A3 (no)
EE (1) EE9600006A (no)
FI (1) FI960112A (no)
FR (1) FR2719780B1 (no)
NO (1) NO305107B1 (no)
WO (1) WO1995031260A1 (no)

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WO2000074514A1 (en) * 1999-06-08 2000-12-14 Proctor Technologies Group, Inc. Articulated ski boot
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US6659492B2 (en) 2001-11-15 2003-12-09 Michael B. Gousie Ski for uphill and downhill skiing
DE10254471A1 (de) * 2002-11-21 2004-06-03 Madsus A/S Ski mit Bindungs-Montagehilfe, Verfahren zur Herstellung eines solchen Ski sowie entsprechende Montagehilfe
SE537602C2 (sv) * 2011-12-16 2015-07-21 Mats Cedervall Längdskida för utövande av klassisk längdskidåkning
SE537616C2 (sv) * 2013-02-28 2015-08-04 Ulf Ekström Längdåkningsskida
WO2015094081A1 (en) * 2013-12-16 2015-06-25 Inadco Ab Ski and method for manufacturing a ski
US9950242B2 (en) 2015-06-19 2018-04-24 Anton F. Wilson Automatically adaptive ski

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EE9600006A (et) 1996-04-15
FI960112A0 (fi) 1996-01-10
WO1995031260A1 (fr) 1995-11-23
NO305107B1 (no) 1999-04-06
NO960087D0 (no) 1996-01-09
US5829776A (en) 1998-11-03
FR2719780A1 (fr) 1995-11-17
CZ9596A3 (en) 1996-04-17
FI960112A (fi) 1996-01-10
NO960087L (no) 1996-01-09
FR2719780B1 (fr) 1996-07-12
CA2166893A1 (fr) 1995-11-23

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