WO2004020055A1 - Fixation et ski equipe de ladite fixation - Google Patents

Fixation et ski equipe de ladite fixation Download PDF

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Publication number
WO2004020055A1
WO2004020055A1 PCT/CH2003/000582 CH0300582W WO2004020055A1 WO 2004020055 A1 WO2004020055 A1 WO 2004020055A1 CH 0300582 W CH0300582 W CH 0300582W WO 2004020055 A1 WO2004020055 A1 WO 2004020055A1
Authority
WO
WIPO (PCT)
Prior art keywords
binding
shoe holder
elastic element
shoe
fastening part
Prior art date
Application number
PCT/CH2003/000582
Other languages
German (de)
English (en)
Inventor
Daniel Waldburger
Robert Rothermann
Andreas ZBÄREN
Original Assignee
Naxo Ag
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 Naxo Ag filed Critical Naxo Ag
Priority to EP03790613A priority Critical patent/EP1534397A1/fr
Priority to AU2003250730A priority patent/AU2003250730A1/en
Publication of WO2004020055A1 publication Critical patent/WO2004020055A1/fr

Links

Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C9/00Ski bindings
    • A63C9/08Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings
    • A63C9/0807Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings for both towing and downhill skiing
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C9/00Ski bindings
    • A63C9/20Non-self-releasing bindings with special sole edge holders instead of toe-straps

Definitions

  • the present invention relates to a binding according to the preamble of claim 1 and a binding according to the preamble of claim 24, a ski equipped with such a binding and the use of elastic elements in a binding, in particular a ski binding, and a ski with elastic elements.
  • Ski bindings that are intended for ski hiking are known. Such bindings are also called touring bindings.
  • the essential feature of these bindings is that there is a running position in addition to a departure position. In the running position, the shoe on the ski can be swiveled around an axis of rotation lying transversely to the ski in the toe area.
  • the movement sequence given by the ski binding no longer corresponds to the natural movement sequence when walking. On long ski tours, this unnatural sequence of movements can lead to a noticeable early fatigue of the body. For touring skiers, individual muscle groups can be overloaded.
  • Various patent documents show how the forced movement can be designed more nomically.
  • CH-A-659 397 shows a sequence of movements with two axes of rotation, the first of which is under the foot in the ball area and the second in front of the shoe.
  • the pivot axes for the shoe holder of this binding coincide with the position of the axes of rotation.
  • WO 87/01296 also shows bindings with pivot axes that coincide with the axes of rotation, and in FIG. 7 a binding with a shifting pivot axis formed by a roller. With this binding, there is an impact on the fastening part of the binding in the course of the walking movement, which likewise produces an impact.
  • EP-A-0 890 379 shows bindings according to the preamble with a shifting pivot axis, a rigid cam body being used which results in a pivot axis which is constantly shifting in the curve region.
  • An initial axis of rotation which is advantageous for the movement sequence, can be provided in the bale area. The rolling surface of the cam body is difficult to protect against snow and ice.
  • EP-A-0 890 379 show a climbing spring known per se, which is intended to prevent the rear end of the ski from hanging down when the ski is lifted.
  • Further ski bindings are known from WO 01/93963, DE-A 100 64 095, CH-A 300 634, US-A-4 887 833, FR-A-2 779 659, US-A-5 741 023, EP-A 1 034 819 and AT-B 404 799.
  • the task therefore is to provide a ski binding which does not have the disadvantages mentioned.
  • a multiplicity of swivel axes are provided or, in other words, one that moves in the longitudinal direction of the binding
  • Swivel axis provided.
  • the pivot axes are formed or the movement of a joint forming the pivot axes is damped.
  • a shock-free pivoting of the shoe holder or an ergonomic walking movement can be achieved and the elastic elements are less susceptible to the adherence of snow and ice due to their deformation.
  • a "soft" support can take place on the elastic elements. This enables fatigue-free walking to be achieved, which puts less strain on various muscle areas and results in fewer pressure points in the ski boot on the shin and in the heel area and generally reduces friction points in the shoe. Furthermore, a strong reduction in tension in the heel area can be achieved.
  • complete support is effected in such a way that the shoe holder does not come into contact with the fastening part or with the carrier during the walking movement, which particularly reduces the risk of a noticeable impact, since the entire pivoting movement is supported by the elastic element when walking. which absorbs all the force that occurs when walking.
  • the elastic element can also only partially support the movement in a damping manner, so that a joint movement with predetermined axes of rotation is only damping being affected. If a rigid support is initially provided for the movement initiation, which is particularly preferred, then the support is then carried out directly by the elastic element, so that there is also no impact during the transition from the rigid support to the elastic support.
  • the support by means of elastic elements allows the location of the preferred rigid support to be placed relatively far back, in the ball area, which is advantageous for triggering the movement without the swiveling axis change resulting in a noticeable, annoying impact on the elements.
  • the use of pressure-elastic elements is preferred.
  • a particularly good sequence of movements can also result from the use of a flexible element, which in particular forms the connection of the shoe holder to the fastening part or is part of the same.
  • the combination of a compression-elastic and a flexurally elastic element is also preferred.
  • the pressure-elastic elements are in turn firmly arranged on the fastening part or on the carrier or on the shoe holder. In the downhill position, the shoe holder is held in place at the front.
  • the invention is therefore also based on the object of creating a binding with a pivotable shoe holder which does not have the disadvantages mentioned.
  • the holding arrangement is selected such that sufficient space is created for a pivoting head with a release spring protruding forward during the swiveling movement to the front.
  • a combination of the two aspects of the invention is particularly preferred, that is to say both the elastic support and the use of the safety binding head with the spring projecting forward.
  • these aspects can also be implemented individually.
  • the invention is further based on the object of providing a ski which does not have the disadvantages mentioned. This is solved by a ski according to claim 27.
  • the binding for other purposes, namely in a training device for touring or snowshoeing or in other sports equipment in which a coupling between shoe and device is ensured with a binding and in which an occasional running movement is desired ,
  • the invention is also based on the object of improving the walking movement in the case of a binding, in particular a ski binding.
  • This object is achieved by the use of at least one elastic element according to claim 20 or by a ski with an elastic element arranged thereon according to claim 31.
  • a binding the walking by a pivoting movement of a shoe holder or even the frontally clamped shoe itself allowed by the use of elastic elements, which are arranged between the shoe holder or the shoe and the wearer or the sports device, in particular the ski, improved in such a way that the pivoting movement takes place on the elastic element.
  • the elastic element or elements are attached to the running equipment at a suitable position or are already attached to the ski in order to achieve partial or complete support of the shoe holder or the shoe during the pivoting movement of the shoe holder or the shoe.
  • Figure 1 is an overall view of a first embodiment of a binding
  • FIG. 2 shows the front part of the binding from FIG. 1 in a first position (basic position);
  • Figure 3 shows the binding of Figure 2 in a second position (lifting);
  • Figure 4 shows the binding of Figure 2 in a third position
  • Figure 5 shows the binding of Figure 2 in a further position
  • FIG. 6 shows the binding of Figure 2 in the fall position
  • FIG. 7 shows a diagram of the binding
  • Figure 8 shows a second embodiment of the binding in a first position (basic position);
  • Figure 9 shows the binding of Figure 8 in vertical section;
  • Figure 10 shows the binding of Figure 8 in a second position (lifting);
  • Figure 11 shows the binding of Figure 8 in a third position (fall position);
  • FIG. 12 shows a further embodiment of the binding in a first position (lifting off).
  • Figure 13 is a side view of a binding with preferably shaped elastic elements.
  • FIG. 1 shows an overall view of a binding 10 designed as a ski binding, which is arranged on a carrier 11, a ski.
  • the binding has a shoe holder 1 with a front jaw 14 and a rear jaw 12, by means of which a ski boot can be fastened to the shoe holder 1 of the binding 10 in a manner known per se.
  • the buttock 12 is only shown schematically and will not be discussed in the further description.
  • the toe piece 14 in the embodiment shown is a known head of a safety binding with sole hold-down devices 15 which can be released laterally under a predetermined load, which will be explained in more detail later.
  • the sole of the ski boot stands on the shoe holder 1, for which purpose a special standing area 16 can be provided, in particular behind the toe piece.
  • the binding 10 further comprises a fastening part 2 lying in front of the shoe holder 1, which is fastened to the top of the ski 11, or with its underside defining a fastening plane 11 ′ of the binding, and the front of the shoe holder 1 on the ski in a manner to be described holds.
  • the rear end of the shoe holder is held in a holding part 17 in such a way that it is firmly connected to the ski in a first position of the holding part, so that the shoe holder is fixed to the ski in the position shown in FIG. 1 (downhill position). In this position, the ski boot is fixedly connected to the ski. In a further position of the holding part 17, this releases the rear end of the shoe holder 1, so that it can be pivoted upwards in a manner to be explained in order to carry out a walking movement.
  • the functions of the holder 17 mentioned are fundamentally known, and this holder will not be discussed further below.
  • FIG. 2 shows only the front area of the binding and this in a basic position according to that of FIG. 1, in which the shoe holder 1 has not yet been pivoted upward.
  • the shoe holder 1 is connected to the fastening part 2 by a connection 3, which connection 3 also represents the elastic element according to the invention, which in this example is a single elastic element.
  • the elastic element 3 is connected to the fastening part 2 by means of an axis 8, which axis 8 serves as the axis of rotation for the essentially plate-shaped elastic element 3 serves, which is designed at its fastening-side end for receiving the axle, or is provided with a corresponding part, which permits the rotatable or also a restrictedly rotatable or rigid fastening to the fastening part 2, which in this example is in the form of a U- shaped bearing block is designed.
  • the corresponding shape can be seen in FIG. 7. At the end of the elastic element 3 on the shoe holder, this is rigidly connected to the shoe holder, for example via a screw connection 7.
  • connection between the shoe holder 1 and the elastic element may take place via an axis, which correspondingly enables the shoe holder to be rotated about the end of the fastening part on the shoe holder side.
  • a rigid support is provided in the binding 10 in the front area, but behind the sole hold-down 15, which forms a substantially fixed pivot axis and which in the example shown is formed by a shape 18 of the shoe holder 1, which is supported on a support element 19 , which is attached to the ski 11.
  • the support could, however, also take place with the formation 18 directly on the surface of the ski 11. This rigid support is preferred for triggering the walking movement, since it enables a particularly good initiation of an ergonomic walking movement.
  • the support on an elastic element or on elements allows this rigid support to be placed relatively far back in the ball area of the shoe holder, which is ergonomically advantageous without having to move from the support to the displaceable pivot axis (when the formation 18 is lifted off the support) 19) results in a disturbing transition, for example with a noticeable blow.
  • the first, essentially stationary pivot axis 18, 19 is therefore preferably arranged behind the toe region of the shoe holder.
  • FIG. 3 accordingly shows the start of the rotary movement, in which the heel of the ski boot is raised. ben is so that the shoe holder pivots about the rigid support 18, 19 which forms the first, substantially fixed pivot axis.
  • the forward-moving weight of the walking person bends the flexurally elastic element 3 as shown, so that there is already a shortening of the distance between the axes 7 and 8, which results in the pivot axis 18, 19 slightly bending forward when the element 3 is bent moved so that this pivot axis is not completely stationary.
  • the shoe holder 1 is supported only via the elastic element 3.
  • the shoe holder 1 thus preferably does not touch the fastening element 2, the carrier 11 or the plane 11 'during the walking movement, which is defined by the underside of the part 2 used for fastening. This is preferably the case during the entire pivoting movement as soon as the rigid support 18 has lifted off the top of the carrier 11 after the walking movement has been triggered. If no rigid support 18, 19 is provided, the support takes place only via the elastic element.
  • FIG. 6 shows a further position, which is preferably possible due to the correspondingly upwardly rotatable fastening of the element 3 to the fastening part 2 by means of the axis 8, even when the element 3 is otherwise rigidly or partly rotationally restricted or partly restricted in rotation in the other direction of rotation and which should enable appropriate forward movement in the event of a fall while walking.
  • the transition from the rigid support 18, which initially forms the swivel axis, to the virtual swivel axis, which is formed by the elastic element, can take place without a disturbing swivel axis jump if the elastic element, which provides the support, is dimensioned and fastened accordingly .
  • the elastic, plate-shaped element 3 of this first example, which is subjected to bending can consist, for example, of a metallic material or of fiber-reinforced plastic or any composite materials. It is preferred if the element 3 permits elastic bending only in the direction shown and is stiff or stiffer in the other direction, so that in the downward position shown in FIG. 1 the shoe holder is raised by bending the element when in a reserve of the skier.
  • FIGS. 8 to 11 show a further exemplary embodiment of the invention, the same reference numerals as previously used again designating the same elements. Only the front area of the binding 10 is shown.
  • the rear part can be designed in the same way as in FIG. 1.
  • the fastening of the shoe holder 1 to the fastening part 2, or via this to the ski 11, is again carried out by means of two axes 8 and 7.
  • the connection between the fastening part 2 and the shoe holder 1 is carried out via a rigid, non-resilient element 13 or, as shown in the sectional view in FIG. 9, via two such elements which extend from both sides of the fastening part 2 extend the two sides of the shoe holder 1.
  • the element 13 is arranged rotatably about the axis 8 on the fastening part 2.
  • the shoe holder 1 is rotatably arranged on the element 13 by means of the axis 7.
  • Elements could also rest on the top of the fastening part. Instead of two elastic elements, several such elastic elements could also be provided or a single elastic element which extends over the fastening part 2 in such a way that it covers the positions of the elements 4 and ′ 5 shown.
  • a fixed support shown, which is formed here by a bracket 28, which protrudes on the underside of the shoe holder 1 and in the basic position of Figure 8 is supported on the rear region 29 of the fastening part 2.
  • a support can also be placed directly on the upper Surface of the ski can be provided or the only preferably available rigid support 28, 29 can be omitted entirely.
  • the bracket 28 is combined with the sole pad 16 in the example shown. 8 is in the basic position
  • the rear elastic element 4 is preferably also already contacted by the shoe holder without, however, deforming it to any significant extent.
  • the elastic element 4 can contact the shoe holder 1 over a larger area than shown. If the shoe holder has now been released so that a walking movement can be carried out, it can be seen in FIG. 10 that the walking movement is initially triggered again via the swivel axis which is formed by the rigid support 28. In this case, the rear elastic element 4 is already deformed, which likewise contributes to the support, or dampens the movement of the shoe holder around the support 28.
  • the joint arrangement with the axes 7 and 8 and the support 28 thus runs through the movement predetermined by its axes 7, 8 and the support 28 and the element 4 has a damping effect by it is deformed during this predetermined movement.
  • the elastic element 4 is chosen to be “harder”, the support of the shoe holder 1 on the deformed elastic element 4 can result in the support 28 already being lifted off the counter surface 29 if the shoe holder 1 does not yet have its underside on the axis 7 has contacted the top of the fastening part 2 or the ski surface.
  • the elastic element 4 forms a wedge-shaped support due to its deformation, the wedge angle increasing until the bottom of the shoe holder is supported on the counter surface (part 2 or ski) at axis 7.
  • the swiveling pivot axis 7 determines the pivoting of the shoe holder and the elastic element 4 has a dampening effect on the walking movement resulting from the joint arrangement 28, 7, 8.
  • the shoe holder 1 can rotate about the axes 7 and 8, which in this case are designed as axes of rotation, but the effective pivot axis results from the joints arrangement 7, 8 and 28 and this movement of the joint arrangement is supported or damped by the support on the elastic elements 4 and 5.
  • the underside 31 of the front jaw 14 of the shoe holder also forms the support surface of the shoe holder on the elastic element 5.
  • FIG. 11 shows the fall position, in which the shoe holder 1 is pivoted all the way forward, in which position none of the elastic elements 4 and 5 anymore is involved in the support of the shoe holder, this position, however, is not part of the normal walking movement, but only represents a position to be preferably taken when falling forward.
  • the elastic elements 4 and 5 are made of hard rubber or a plastic or another sufficiently elastic material. They are chosen in their hardness so that there is usually no hard impact of the shoe holder with the top of the ski or the fastening part. However, such a strong deformation of the elastic elements or such a low damping of the joint movement is preferably permitted that contact between the shoe holder and the top of the ski is possible.
  • the shape of the surface of the elastic element 4, 5 does not play a role in itself, since it is deformed anyway.
  • Figures 8 to 11 show elements 4, 5 with a concave surface in the longitudinal direction of the ski.
  • Figure 12 shows an element 4 with a convex surface.
  • FIG. 13 shows a preferred shape with a straight surface for the element 4 and the element 5 that rises like a ramp in the longitudinal direction of the ski tip.
  • the two exemplary embodiments with the flexurally elastic element 3 and the pressure-elastic elements 4 and 5 can also be combined, so that both types of the elastic elements are provided at the same time and together act to support the shoe holder 1.
  • the flexible element 3 then has a recess for the element 5 or the flexurally elastic element 3 is replaced by two elements similar to the rigid elements 13, but which are also so flexibly elastic that they deform visibly during the walking movement, as is the case with the element 3.
  • the representation of the holding arrangement with the axes 7, 8 and the connecting elements 3 and 13 is of course to be understood only as an example.
  • Further axes of rotation can be provided, for example in the middle of the rigid element 13, which then has two articulated rigid elements, or other types of holding arrangements can be used, it being only desirable that the pivot axis move in the course of the Can shift walking movement.
  • the arrangement of the elastic element formed by parts 4 and 5, which rests on the ski surface in the example shown and supports the shoe holder with its surface, is of course only to be understood as an example.
  • the one-part or multi-part pressure-elastic element can, of course, also be fastened to the shoe holder and rest against it or pivot with it and thus, and thus the shoe holder, are supported against the ski surface or the fastening part.
  • the embodiment shown is preferred, in which the fastening element rests on the ski surface or fastening part surface. It is further preferred if the shoe holder is supported in the front area as shown in FIG. 9 such that the underside 31 of the housing part of the head 14 contacts the elastic element for supporting the shoe holder.
  • Elastic elements 4, 5 can also be used in a binding other than the one shown, in order to form an elastic support for the respective shoe holder with a shifting pivot axis.
  • the sole of the ski shoe can also be supported directly if the binding is a special combination of shoe and Has holder which is coupled directly to the sole, such that the web or plate-shaped support part described so far is not available under the shoe.
  • the elements 4, 5 can then be sold as retrofit parts which are designed for attachment to the ski or to the binding, so that they can form the support in the manner described above.
  • the elements can preferably be designed such that their shape and hardness are adapted to the respective binding, in particular such that the elements themselves are positioned on the ski 11 by the binding itself.
  • the elastic element or elements can also be part of the ski and attached to or in it in such a way that they protrude on the upper side and at the predetermined mounting position of a binding that enables walking, as a support for the shoe holder or directly work for the sole of the shoe.
  • FIG. 9 shows that, as is common with safety binding heads for pure downhill ski bindings, the sole hold-down device 15 can be pivoted about a vertical axis 26, the sole hold-down device 15 during this pivoting movement being caused by the force of the protruding, pivoting with the entire head 14 mi Compression spring 24 is applied, the spring preload for adjusting the force at which the safety binding is triggered is adjustable. This is generally known and need not be explained further here.
  • the head 14 of the safety binding can have further safety functions known per se, which also need not be explained here. It is essential that here now such a head with the spring 24 projecting forward or the corresponding spring housing 27 and the adjusting sleeve 30 is arranged on the pivotable shoe holder 1 and this is in turn held by the fastening part with the holding arrangement in such a way that the pivoting movement forwards is free despite the spring projecting forward is feasible.
  • the connecting part 3, 13 is designed such that it has a recess (between the arms 13 in FIGS. 8 and 9) into which the front jaw can dip when pivoting, or if the connecting part swivels away or bends away, as can be seen in FIGS. 4 and 5. Accordingly, there should be no contact between the front jaws or the spring housing 27, 28 and the fastening part 2 or the connecting part 3, 13 over the entire swivel range, despite the housing projecting forward.
  • FIG. 12 shows a preferred embodiment of a fixation of the axis 7 against an upward movement in the downward position of the binding in the form of a retainer 6 and explains its mode of operation. So that the retainer 6 is visible, the front of the rigid connecting elements 13 has been omitted in the drawing.
  • the retainer comprises a stop surface 21 on the holding arrangement side, a stop surface 20 on the shoe holder side and preferably a damping.
  • a bolt 23 is held in the connecting elements 13 in a connecting manner and forms with its outer surface the stop surface 21 on the holding arrangement side.
  • the stop surface 20 on the shoe holder side is formed by the lower end of an arcuate elongated hole in the shoe holder 1.
  • the two surfaces 20, 21 lie against one another and the axis 7 of the holding arrangement cannot be raised, ie the distance to the carrier 11 cannot be increased. This results in a stable fixing of the shoe holder and the skier's reserve. So that the user as possible feels no impact when the two stop surfaces 20, 21 meet, the entry into this end position is preferably damped.
  • the elongated hole in the shoe holder can be tapered towards the stop surface or be made with a slight undersize, so that friction between the outer surface of the bolt 23 and the side walls of the elongated hole or the shoe holder 1 results in damping by friction.
  • the frictional connection can also be achieved in other ways, for example by means of a curved surface which rubs against a planar surface.
  • projections, for example pins, of the connecting elements 3, 13 can also engage in the shoe holder or projections of the shoe holder 1 can engage in elongated holes in the connecting element 13.
  • the retainer 6 can further comprise at least one spring 22 for damping by a force counteracting the movement.
  • the spring 22, shown is a torsion spring on the axis 7, can be both a continuous one

Landscapes

  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)

Abstract

Fixation (10), en particulier fixation de ski, avec laquelle un mouvement de marche est possible. Ladite fixation comporte au moins un élément élastique (3) qui forme un axe de pivotement se déplaçant lors du mouvement de marche, pour le dispositif de maintien (1) de la chaussure, et qui amortit le mouvement de marche. On peut ainsi obtenir un déroulement ergonomique du mouvement.
PCT/CH2003/000582 2002-08-27 2003-08-27 Fixation et ski equipe de ladite fixation WO2004020055A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
EP03790613A EP1534397A1 (fr) 2002-08-27 2003-08-27 Fixation et ski equipe de ladite fixation
AU2003250730A AU2003250730A1 (en) 2002-08-27 2003-08-27 Binding and ski fitted therewith

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
EP02019024 2002-08-27
EP02019024.5 2002-08-27

Publications (1)

Publication Number Publication Date
WO2004020055A1 true WO2004020055A1 (fr) 2004-03-11

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ID=31970264

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CH2003/000582 WO2004020055A1 (fr) 2002-08-27 2003-08-27 Fixation et ski equipe de ladite fixation

Country Status (3)

Country Link
EP (1) EP1534397A1 (fr)
AU (1) AU2003250730A1 (fr)
WO (1) WO2004020055A1 (fr)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102009018853A1 (de) 2009-04-24 2010-10-28 Marker Deutschland Gmbh Skibindung
ITTO20120801A1 (it) * 2012-09-15 2014-03-16 Stefano Maruelli Sistema di attacco irrobustito

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH300634A (de) * 1952-03-08 1954-08-15 Gujer Felix Skibindung.
US4887833A (en) * 1988-09-26 1989-12-19 Bailey Mark R Touring ski binding
US5741023A (en) * 1994-02-17 1998-04-21 Silvretta-Sherpas Sportartikel Gmbh Binding for touring ski and snowboard
AT404799B (de) * 1997-06-06 1999-02-25 Breuer Martin Dipl Ing Tourenschibindung mit ballendrehpunkt
FR2779659A1 (fr) * 1998-06-16 1999-12-17 Christophe Oddoux Dispositif d'articulation complementaire de fixation de ski ou de raquette
EP1034819A2 (fr) * 1999-03-01 2000-09-13 Martin Dipl. Ing. Breuer-Bono Fixation pour ski de randonnée avec méchanisme à double articulation
WO2001093963A1 (fr) * 2000-06-08 2001-12-13 Rottefella As Ensemble constitue d'une fixation de ski et d'une chaussure de ski
DE10064095A1 (de) * 2000-12-21 2002-07-04 Reinhold Zoor Skibindung

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH300634A (de) * 1952-03-08 1954-08-15 Gujer Felix Skibindung.
US4887833A (en) * 1988-09-26 1989-12-19 Bailey Mark R Touring ski binding
US5741023A (en) * 1994-02-17 1998-04-21 Silvretta-Sherpas Sportartikel Gmbh Binding for touring ski and snowboard
AT404799B (de) * 1997-06-06 1999-02-25 Breuer Martin Dipl Ing Tourenschibindung mit ballendrehpunkt
FR2779659A1 (fr) * 1998-06-16 1999-12-17 Christophe Oddoux Dispositif d'articulation complementaire de fixation de ski ou de raquette
EP1034819A2 (fr) * 1999-03-01 2000-09-13 Martin Dipl. Ing. Breuer-Bono Fixation pour ski de randonnée avec méchanisme à double articulation
WO2001093963A1 (fr) * 2000-06-08 2001-12-13 Rottefella As Ensemble constitue d'une fixation de ski et d'une chaussure de ski
DE10064095A1 (de) * 2000-12-21 2002-07-04 Reinhold Zoor Skibindung

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102009018853A1 (de) 2009-04-24 2010-10-28 Marker Deutschland Gmbh Skibindung
ITTO20120801A1 (it) * 2012-09-15 2014-03-16 Stefano Maruelli Sistema di attacco irrobustito

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EP1534397A1 (fr) 2005-06-01
AU2003250730A1 (en) 2004-03-19

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