EP2444131A1 - Fixation pour planche de glisse dotée d'unités de retenue réglables dans le sens de la longueur - Google Patents

Fixation pour planche de glisse dotée d'unités de retenue réglables dans le sens de la longueur Download PDF

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Publication number
EP2444131A1
EP2444131A1 EP11185706A EP11185706A EP2444131A1 EP 2444131 A1 EP2444131 A1 EP 2444131A1 EP 11185706 A EP11185706 A EP 11185706A EP 11185706 A EP11185706 A EP 11185706A EP 2444131 A1 EP2444131 A1 EP 2444131A1
Authority
EP
European Patent Office
Prior art keywords
locking
engagement
holding unit
locking member
base plate
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.)
Granted
Application number
EP11185706A
Other languages
German (de)
English (en)
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EP2444131B1 (fr
Inventor
Manfred Bader
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.)
Marker Deutschland GmbH
Original Assignee
Marker Deutschland GmbH
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 Marker Deutschland GmbH filed Critical Marker Deutschland GmbH
Publication of EP2444131A1 publication Critical patent/EP2444131A1/fr
Application granted granted Critical
Publication of EP2444131B1 publication Critical patent/EP2444131B1/fr
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C9/00Ski bindings
    • A63C9/003Non-swivel sole plate fixed on the ski
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C9/00Ski bindings
    • A63C9/005Ski bindings with means for adjusting the position of a shoe holder or of the complete binding relative to the ski
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C9/00Ski bindings
    • A63C2009/008Ski bindings with a binding element sliding along a rail during use or setting

Definitions

  • the invention relates to a binding for a sliding board with longitudinally adjustable holding units for holding a shoe.
  • the invention relates in particular to a ski binding, but in principle can also be found in other sliding boards such as snowboards use.
  • Ski bindings have holding units for ski boots, which are adjustable in the longitudinal direction relative to each other in order to adjust the binding quickly and flexibly to different ski chair lengths, especially ski boot sizes.
  • a quick and easy way of adjusting is especially for the ski rental advantage, but also for the skier himself to the ski flexibly on, for example, different ski boots of the same driver or on different drivers of a group, for example within the family to adjust.
  • the binding should still be compact and flexible and flexible despite being easy and secure.
  • flexibly adjustable bindings are for example from the EP 1 652 559 A1 , of the EP 1 652 560 A1 known.
  • the front and the rear holding unit are each individually adjustable, according to both documents individually unlocked, adjustable and locked again in the new position.
  • a ski binding known with longitudinally adjustable holding units and a coupling and locking device that allows unlocking, adjusting the holding units and locking the holding units in the set position. It is proposed to use two manually operable bars.
  • a coupling and locking device is described with a double bolt, which is connected with respect to the longitudinal direction immovably with a longitudinally movable coupling rail and is movable relative to this vertically.
  • the Dappelriegel acts together with a row of holes a skifest mounted base plate and a row of holes of one of the two holding units.
  • the coupling rail extends into a gap remaining between the row of holes of the base plate and the row of holes of the holding unit.
  • the double bolt can be moved from a locking position, in which both holding units are locked relative to the ski or the base plate, in the direction of the ski in an intermediate position and from this to a release position. In the intermediate position If the binding can be adjusted as a whole and in the release position, one of the holding units can be adjusted alone.
  • the DE 10 2009 051 185 A1 mentions to the above-mentioned prior art as disadvantageous that the adjustment mechanism increases the overall volume of the front holding unit and the bolt must be moved to two different positions, either to be able to adjust the distance of the holding units or the relative position of the entire binding to the ski.
  • the mentioned problem of the volume of construction is shifted from the front holding unit into the area between the holding units.
  • a reduction in the height is not recognizable, but two toothed, movable relative to the ski coupling rails and additional parts for the locking and unlocking of the coupling rails are required.
  • the two holding units can either be locked or unlocked together, so they are always either fixed relative to the ski or both simultaneously adjustable along.
  • the axial position of the center of gravity of the sliding board driver can be adjusted.
  • the invention is based on a binding for a gliding board, which has a base plate with an axial guide, a first holding unit and a second holding unit, an axially movable and thereby axially adjustable coupling rail and a locking member to lock the holding units in set axial positions relative to the base plate to be able to.
  • the axial direction corresponds to the longitudinal direction of the binding.
  • the longitudinal direction is in most applications, for example in the case of a ski binding, consistent with the longitudinal extent of the sliding board.
  • the base plate is used to connect to the sliding board and is either already immovably connected to the sliding board or set up for such a connection.
  • the invention thus relates to the bond as such, detached from the gliding board, and also the combination of gliding board and associated binding.
  • the axial guide of the base plate can be formed in particular as an axially extending guide rail, expediently as a left and a right guide rail or a plurality of left and right guide rail sections.
  • the base plate may in particular also comprise a plurality of separately manufactured base plate parts, each of which is individually connected or connectable to the sliding board are.
  • the base plate may be interrupted in the longitudinal direction without interruption or alternatively in the longitudinal direction and comprise a first base plate part with a first axial guide for the first holding unit and a second base plate part with a second axial guide for the second holding unit.
  • An axially continuous, for example, in one piece shaped base plate may have an axially continuous axial guide for the holding units or each having an axial guide for each associated with the two holding units.
  • the base plate as a unit or as separate parts, may be molded in particular from plastic.
  • One of the holding units is a front holding unit for holding a ten-sided end and the other a rear holding unit for holding a heel-side end of a shoe, such as a ski boot.
  • the holding units are each in a guide engagement with the axial guide and are axially, in the longitudinal direction of the bond, adjustable relative to the base plate along the axial guide.
  • the first holding unit and preferably also the second holding unit surrounds the axial guide or the associated axial guide outside, since a guide engagement in which the respective holding unit engages around the axial guidance of the base plate, with respect to the transfer of forces and in particular moments between holding unit and base plate is beneficial.
  • the coupling rail extends from the first holding unit to the second holding unit.
  • the coupling rail extends axially continuously, without interruption, to each of the first and the second holding unit, preferably to at least the axial height of the respective sole holder.
  • the holding units are coupled or coupled to the coupling rail so that the first holding unit is axially displaceable relative to the coupling rail and the second holding unit with the coupling rail axially movable together.
  • the connection of coupling rail and second holding unit is preferably designed so that the second holding unit is always connected in the assembled state of the bond with the coupling rail for the common axial movement. This connection is preferably releasable to facilitate the manufacture and also the mounting of the binding.
  • a detachable connection is also advantageous in view of the usability of the same coupling rail with different second holding units to facilitate the replacement in the event of a defect or to provide a modular binding system with the type after different holding units or coupling rails, which are interchangeable For example, always be able to use the same coupling rail with the design for different second holding units.
  • the locking member is movably supported between a locking position and a release position. With its help, the first holding unit and the coupling rail are axially fixed in the locking position relative to the base plate in a locking engagement. Of the Locking engagement is achieved by the movement into the release position, so that the locking member in the release position releases the coupling rail and the first holding unit and these can be adjusted axially relative to the base plate.
  • the coupling rail extends axially movable in a channel under the base plate.
  • the coupling rail is preferably sufficiently rigid to accommodate the axial force, train or pressure required for the adjustment, but in further developments, it is also guided axially in the channel. It can be guided in particular in a sliding contact of the base plate. With axial guidance larger axial forces, in particular pressure forces, can be absorbed when adjusting the binding. Conversely, the coupling rail can also be made slimmer and reduced in weight accordingly.
  • the coupling rail as a whole has, in a first approximation, the shape of an axially long bar, with a thickness measured vertically in the assembled state of the binding, which is smaller than a width measured in the transverse direction, so that the support formed by the binding
  • the shoe called the footprint, can be held close to the top of the gliding board.
  • the channel formed on the underside of the base plate may be open downwards, towards the gliding board, over its entire or at least the greater part of its axial length, so that the channel is bounded on its underside by the gliding board when the binding is mounted.
  • the coupling rail does not slide on the top of the sliding board, but on a sliding surface of the base plate, which is preferably formed by a plurality of axially spaced sliding surface portions of the base plate.
  • the sliding surface may in particular be formed by vertically thin webs of the base plate extending or extending at the top of the gliding board from a left to a right side wall of the base plate laterally delimiting the channel.
  • the base plate preferably forms a flat upside-down U-profile whose short side legs form the side walls of the channel.
  • the arrangement of a coupling rail under the base plate more precisely under the connecting web of the U-profile, ie under that structure which ensures the axially adjustable connection of the holding units on the sliding board, allows a compact construction of the bond, especially when using a vertically flat coupling rail.
  • the coupling rail is axially movable when the locking engagement is released relative to the base plate and also relative to the first support unit and further extends axially from the second support unit to the locking engagement, the number of parts required for the longitudinal adjustment can be reduced and the binding can therefore be simplified.
  • a simple and robust design is also helpful if the coupling rail is formed in one piece or at least several Sharing is firmly attached to a unit.
  • a further advantage is that the same locking member axially fixed both the first holding unit and the coupling rail and the coupling rail, the second holding unit relative to the base plate in the locking engagement. It must be solved only the locking engagement and the locking member to be moved to the release position in order to adjust the holding units relative to the base plate and relative to each other axially.
  • the locking member may engage or grasp the base plate in locking engagement and be in locking engagement with the base plate.
  • the locking engagement can consist in passing or wraparound only on one side of the locking member or advantageously on two sides of the locking member, which are expediently opposite each other.
  • the locking member may be the base plate through or encompassing on a in the assembled state of the top of the sliding board facing bottom of the base plate with this in locking engagement, an engagement structure of the base plate so on the underside and a Eingriffsussi Modell the locking member to be formed on an upper side of the locking member.
  • the engagement structure and the Eingrifisussi Vietnamese are arranged directly in the through or Umgriff, so on one or two opposite side walls respectively of the base plate and locking member, wherein the side walls preferably extend axially and vertically.
  • the mating and mating counter-structures may each be a single or a plurality of vertically extended ribs or indentations, in the base plate or the locking member, preferably both, such as one or more axially extending gearing (s). be shaped.
  • the word "or” is always understood by the invention in the sense of “inclusive or”, ie includes the meaning of "either ... or” and also the meaning of "and”, as far as the respective concrete context is not exclusive can give one of these two meanings.
  • the engagement structure of the base plate axially adjacent to each other may comprise a plurality of engagement elements, for example the said ribs or recesses, while the engagement counter-structure of the locking member has only a single engagement counter element.
  • the engagement structure of the base plate can only consist of one engagement element or on several sides of each only one engagement element, while the engagement counter-structure of the locking member has a plurality of axially juxtaposed engagement counter elements.
  • both the engagement structure of the base plate and the engagement counter-structure of the locking member can each have a plurality of axially juxtaposed engagement elements or engagement counter-elements, as is also preferred.
  • the locking member in the locking position engages or surrounds both the base plate and the coupling rail and is in the respective by or Umgriff both with the base plate and with the coupling rail in locking engagement to the coupling rail and the first holding unit relative to the base plate axially to fix, so to lock.
  • the statements made for engagement structure of the base plate apply in the same way for an engagement structure of the coupling rail. If the locking engagement in the respective through or Umgriff of base plate and coupling rail, is preferred by the four engagement possibilities under these circumstances, in which the locking member in the locking position, both the base plate and the coupling rail passes through and the engagement structure of the base plate and the engagement structure the coupling rail is formed in the respective penetration.
  • the locking member is preferably supported by the first holding unit to and fro.
  • the base plate or even the coupling rail may reciprocally support the locking member between the locking position and the release position.
  • the storage is expediently such that the locking member on the supporting structure, preferably the first holding unit, axially supported and is not axially movable relative to the bearing structure.
  • the bearing structure preferably the first holding unit or, alternatively, the base plate or the coupling rail, can guide the locking member to reciprocate linearly between the locking position and the release position.
  • the axis of movement preferably extends transversely to the longitudinal direction of the binding, particularly preferably the locking element is movable back and forth along a vertical axis of the binding.
  • the latch member is, in preferred embodiments, movable upwardly from the latching position to the release position with respect to the binding such that it is moved upwardly to the release position from the top of the slideboard relative to the gliding board mounted condition of the binding. Accordingly, it assumes a lower position in the locking position, that is to say in the locking engagement, and a position near the sliding board in the assembled state of the binding. At the top of the sliding board may even be provided a recess into which the locking member can partially retract when moving into the locking position, but this is not required. It may contact the top of the sliding board in the locking position or have a clear, preferably only very small distance from this.
  • the mobility of the locking member upwards from or down into the locking position is conducive to a compact design and stable locking mechanism, in particular a combination of an upward mobility with the previously discussed linear mobility.
  • the locking member is in locking engagement with the engagement structure of the base plate and the engagement structure of the coupling rail, if the locking member is preferably supported by the first holding unit to and fro.
  • the base plate reciprocates the latch member
  • such sliding contact exists with the engagement structure of the coupling rails and the engagement structure then present in the first support unit.
  • the coupling rail reciprocally supports the locking member
  • such a sliding contact in locking engagement accordingly exists with the engagement structure of the base plate and the engagement structure of the first holding unit.
  • one of the base plate, the coupling rail and the first holding unit supports the locking member to and fro, while the other two each have an engagement structure with which an engagement counter-structure of the locking member is in locking position in its locking position.
  • the locking member may have a different color, preferably a signal color, than the rest of the binding or at least the immediately surrounding binding region.
  • the binding area immediately surrounding the locking member is designed in such a development that the position of the locking member due to the different color is optically clear, the user can in particular easily recognize whether the locking member occupies the locking position or not.
  • the locking member may be arranged to leak slightly from an immediately surrounding binding region when the locking engagement is released, preferably already during release when the locking member moves from the locking position towards the release position becomes.
  • the locking member is arranged so that it projects upwards in the release position via a footprint for the shoe.
  • the locking member can not be moved to the release position due to the shoe standing on the footprint.
  • the locking member already protrudes upward over the contact surface when the locking engagement is released, preferably already during disengagement while the locking engagement is still present, so that the lock can not be released when the shoe is held.
  • the binding comprises an actuating mechanism for the locking member and the actuating mechanism allows the operation of the locking member, namely its movement from the locking position to the release position, by hand and preferably without tools or other aids.
  • the binding comprises an actuating element belonging to the actuating mechanism, which is mounted so as to be movable back and forth by the binding between a first position and a second position and is mechanically coupled to the locking element, so that the movement of the operating element from the first to the second position a movement of the locking member in the direction of the release position and a movement of the operating member from the second to the first position causes a movement of the locking member in the direction of the locking position.
  • the action can take place in a narrower sense, in that the respective movement of the operating element produces a force acting on the locking member via the coupling or a torque acting on the locking member.
  • the action may alternatively be in the case of movement towards the locking position or the release position going on so that the corresponding movement of the operating member only allows or allows the corresponding movement of the locking member, namely, if the movement of the locking member in the appropriate direction, either towards the release position or towards the lock position, by otherwise generated force or otherwise generated torque, and the corresponding movement of the operating member permits the conversion of such restoring force or such return torque into the movement of the locking member.
  • the locking member is acted upon by means of an elastic restoring force of a spring device in the direction of the locking position.
  • a force or torque is generated by means of the operating element during its movement in the direction of its second position and transmitted to the locking member, so that it is moved against the force of the spring device in the direction of the release position.
  • the movement of the operating member in the direction of its first position can also generate a force acting on the locking member in the opposite direction or a corresponding torque, but advantageously this restoring force or a restoring torque is generated by the spring means.
  • the actuating mechanism is designed so that the locking member is secured in the locking position by the operating member, when this assumes its first position, so that it can not move from the locking position under the forces occurring in the use of the sliding board against the spring means ,
  • the binding may pivotally support the operating member about a pivot axis between the first and second positions.
  • the first and second positions are in such embodiments according to pivot positions.
  • the pivot axis preferably extends transversely to the longitudinal direction or transversely to a perpendicular to the longitudinal direction facing the vertical axis of the binding. It can in particular extend transversely to the longitudinal direction and transversely to the vertical axis.
  • the transversely extending pivot axis preferably has perpendicular to the longitudinal direction or to the vertical axis, but it may be inclined as a transversely extending pivot axis but generally also obliquely to the longitudinal direction or the vertical axis.
  • the operating member may be directly coupled to the locking member, i. H. be directly with the locking member in a movement causing its engagement.
  • the operating element can also be coupled to the locking member by means of a force-transmitting or torque-transmitting coupling member.
  • This also includes embodiments in which the operating element is coupled to the locking member via a plurality of, for example two or three coupling members. In preferred embodiments, the operating member is coupled by means of only a single coupling member with the locking member.
  • An indirect coupling by means of at least one, preferably a single coupling member allows an advantageous adaptation of the operating member between the first and second position and the latch member to be traversed between the locking position and the release position path lengths, a sub-or possibly translation of the operator's path covered and in particular also a freer design of the locking and actuating mechanism.
  • the locking member is arranged in a central region with respect to the forces to be absorbed by the first holding unit. Such a central area will be difficult to access in many applications, while the operator's organ is moved away from such a central location to an easily accessible location.
  • the operating member may have an eccentric, for example one or more eccentric cams, which pivots with a pivoting of the operating member about the pivot axis and its pivotal movement in the case of an indirect coupling to the coupling member and acts directly on the locking member in the case of a direct coupling.
  • the eccentric can press in its pivoting movement, in particular in a sliding contact on the coupling member or directly on the locking member.
  • the eccentric can also serve to secure the operating element in the first or the second or in the first and also in the second position against unintentional movement in the direction of the respective other position.
  • the operating member can be secured by means of the eccentric in the position in which it would be moved over the coupling by the restoring force of the spring means.
  • the eccentric secures the control against unwanted retraction due to the restoring force of the spring device.
  • the spring means holds the locking member in its locking position
  • the spring means thus generates a restoring force which biases the locking member in the direction of the locking position
  • the eccentric secures the operating member conveniently in the second position with the release position of the locking member corresponds.
  • an eccentric of the kind described can be provided only for securing the operating member, ie such a backup eccentric in addition to the eccentric for generating the movement of the Locking member or be provided in addition to a different active element of the operating element.
  • the operator is in preferred embodiments in the first position under a footprint for the shoe back. In the second position, it is preferably above the footprint. If the binding keeps a shoe, in particular when using the binding, the shoe standing on the contact surface thus prevents the operating member from moving from the first position towards the second position under the shocks during the lowering.
  • a spring biases the operating member in the direction of its first position.
  • This spring is preferably arranged so that its spring tension assumes a maximum value when the operating member assumes a position between the first and the second position.
  • the spring can advantageously be supported on a relative to the base plate back and forth movable, preferably pivotable, bearing element and the bearing element to be coupled to the operating member so that a movement of the operating member causes the movement of the bearing element.
  • the spring may be arranged in such embodiments that the spring tension is changed by the movement of the bearing member, namely decreases from the largest value in the intermediate position in both directions of the reciprocating movement of the bearing element respectively.
  • the spring is preferably supported on the bearing element and can be stored by this in particular so that it participates the movements of the bearing element. If the spring is, for example, a helical compression spring, the bearing element can protrude axially into the spring and can also protrude axially.
  • the first holding unit may be a toe-side or a heel-side holding unit, preferably it is the toe-side holding unit of the binding.
  • the second holding unit is corresponding to the toe-side or more preferably the heel-side holding unit.
  • the second holding unit can be connected to the coupling rail insoluble or releasably connected in advantageous embodiments.
  • a detachable connection is manufacturing technology, for the assembly of the bond and, as already mentioned, for an optional modular construction of the bond of advantage. Regardless of the question of whether the connection is detachable or insoluble, the second holding unit can advantageously move longitudinally relative to the coupling rail and the base plate, wherein the mobility in the direction of the first holding unit facing longitudinal direction is preferably limited by a stop.
  • the second holding unit is preferably movable in the direction away from the first holding unit longitudinal direction against the force of a starting spring, which ensures a sufficiently firm pressure of the second holding unit against the thrust, but on the other hand leaves the sliding board in the longitudinal section below the shoe a certain freedom of movement for bending deformations ,
  • the second holding unit has a support member with an engagement structure and the coupling rail on a Eingriffsussi Modell, in mutual engagement for an axial support of the second holding unit to the coupling rail and the coupling rail provide the base plate.
  • this mobility is advantageously realized within the second holding unit, but in principle could also be the support member of the second holding unit relative to the coupling rail over a predetermined, relatively short distance between Be stop and spring force of the starting spring to be movable. More preferably, this mobility is realized as stated within the second holding unit.
  • the starting spring may be supported in particular on the support member of the second holding unit and the engagement structure comprising the support member of the second holding unit relative to the coupling rail absolutely fixed and the second holding unit have a certain axial mobility relative to its own support member.
  • the support member may form an abutment for the starting spring, wherein the starting spring can be supported directly on the support member.
  • the engagement structure is arranged in preferred embodiments on a lower side of the second holding unit.
  • the engagement structure of the second holding unit and the engaging counter-structure of the coupling rail are shaped so that they cooperate in the connected state in the manner of a connector by the engagement structure plugged either on the engagement counter-structure, or, more preferably, is inserted into the Eingriffsussi Modell.
  • the engagement structure may correspondingly form the female part of the connection and be realized as a recess or breakthrough on the underside of the second holding unit or, more preferably, as a male part of the Projecting connection from the bottom to the bottom.
  • the engagement counter-structure of the coupling rail is formed either as a male connecting part or, more preferably, as a female connecting part, for example as a recess or breakthrough on or through the coupling rail.
  • connection of the holding units to the base plate is preferably designed so that the holding units are set in guiding engagement with the respective associated axial guide on the base plate in all degrees of freedom except the translational L Kunststoffsbewegige, and the remaining degree of freedom of movement of the first longitudinal movement unit by the locking engagement and in the second holding unit is taken by either a fixed connection or preferably the releasable engagement of engagement structure and engagement counter-structure of the holding unit and coupling rail and is sufficiently limited in the second holding unit.
  • the actuating mechanism with the above-discussed control element is already advantageous and not only in combination with the coupling rail extending in the channel or the common locking engagement of the base plate, coupling rail and, via the locking member, the first holding unit.
  • the Applicant reserves the right to file a divisional application in particular for each of these subjects of the invention.
  • FIG. 1 10 shows a binding of a first embodiment with a base plate mounted on a gliding board comprising two base plate parts 1 and 2, a first holding unit 10 for holding a toe end of a shoe, a second holding unit 20 for holding a heel side end of the shoe and a coupling rail 30.
  • the base plate parts 1 and 2 are made separately from each other and also separately mounted on the sliding board, for example by means of screw.
  • the sliding board is a ski, when binding according to a ski binding.
  • the front base plate 1 is for connecting the front or toe-side first holding unit 10 to the sliding board
  • the rear base plate part 2 is for connecting the rear or heel-side second holding unit 20 to the sliding board.
  • the base plate parts 1 and 2 each have an axial guide 3 in the form of a respective left and right guide rail.
  • the holding unit 10 has a carrier 11 with an axial guide 13 and the holding unit 20 has a carrier 21 with an axial guide 23.
  • the axial guide 3 of the base plate part 1 with the axial guide 13 and the axial guide 3 of the base plate part 2 with the axial guide 23 in a guide engagement, in which the holding unit 10 and the holding unit 20 relative to the respective base plate part 1 and 2 axially adjustable back and forth are.
  • the longitudinal direction X of the shoe to be held which coincides at least in the case of a ski binding with the longitudinal direction of the ski, understood.
  • the base plate parts 1 and 2 are hereinafter referred to as a whole as the base plate 1, 2.
  • the base plate parts 1 and 2 could also be axially continuous formed in one piece or joined to a unit mountable base plate 1, 2.
  • the axial guide 3 is in the guide engagement, ie in the fully assembled state of the binding, surrounded by the axial guides 13 and 23 of the holding units 10 and 20 outside. By wrapping the outside results in a favorable forces and torque distribution when using the gliding board, here while skiing.
  • the first holding unit 10 comprises the already mentioned carrier 11 with the axial guide 13 formed on the underside of the carrier 11, a left and a right sole holder 12 and a support 14 for the shoe.
  • the sole holder 12 are movably supported by the carrier 11 in a conventional manner against spring force, so that they keep the toe-side portion of the shoe on the one hand safely, on the other hand, when certain forces are exceeded, for example, in a fall, trigger and release the shoe on the toe.
  • the support 14 forms a footprint for the shoe.
  • the support 14 is made separately from the carrier 11 and connected to this form and locks.
  • Part of the first holding unit 10 is also a manually operable operating member 40, which serves for adjusting the axial positions of the holding units 10 and 20 relative to the base plate 1, 2.
  • the second holding unit 20 comprises the carrier 21 with the axial guide 23 formed on its underside and a sole holder 22 for holding the heel-side end of the shoe.
  • the sole holder 22 is movable against spring force, as is basically known for heel-side holding units.
  • the holding unit 20 comprises by way of example a relative to the carrier 21 and also relative to the sole holder 22 movable opening lever 24, by the actuation of the binding can be solved. With 25 a ski brake is called.
  • the coupling rail 30 is axially elongate, has a compared to their length only small width and compared to the width even smaller thickness, in each case measured over everything on. It is essentially plate-shaped, while slim and thin, for example, it is shaped as a flat bar.
  • FIG. 1 shows the binding in the partially assembled state.
  • the base plate 1, 2 is mounted, the holding units 10 and 20 and the coupling rail 30 are not yet mounted, but with respect to the longitudinal direction X and transverse direction Y relative to the base plate 1, 2 and shown relative to each other in positions that they are in the assembled state also take the bond.
  • the base plate 1, 2 is a mounting part in the example, more precisely, it consists of the two mounting parts or base plate parts 1 and 2. In a modification, however, it could also be embodied as an integrated component of the sliding board, ie, not detachable from the sliding board.
  • the base plate 1, 2 forms on its underside facing the upper side of the sliding board a channel 4 which extends in the longitudinal direction X and through which the coupling rail 30 extends in the assembled state of the binding.
  • each of the base plate parts 1 and 2 forms an axial portion of the channel 4, wherein the two channel sections are axially aligned.
  • the coupling rail 30 is guided in the assembled state in the channel 4 of the base plate 1, 2 axially movable linear.
  • the base plate 1, 2 is open to form the channel 4 on its underside, towards the top of the sliding board, over a greater part of its axial extent, so that immediately forms the sliding board with its top a lower boundary of the channel 4.
  • the base plate 1, 2 sections sliding surfaces 8, on which the coupling rail 30 slides in Lekssverstellen the bond, so that they do not slide contact with the sliding board itself Has.
  • the sliding surfaces 8 could be dispensed with, so that the coupling rail 30 can be moved axially back and forth directly on the upper side of the sliding board.
  • the sliding surfaces 8, which are only partially sectional in the example can also be axially continuous on the base plate 1, 2, axially continuous at least within the exemplary separate base plate parts 1, 2.
  • the base plate 1, 2 in any case over a larger part of their Length on its underside a in the assembled state downwardly open, flat U-profile, with which it encloses the coupling rail 30 above and on both sides and by means of their sliding surfaces 8 forming areas also includes.
  • the base plate 1, 2 is at least one axial end, in the embodiment only at its rear end, open, so that the coupling rail 30 can be inserted from the rear into the channel 4 for the attachment of the binding, first into and through the channel 4 of the Base plate part 2 and also by the open rear end of the base plate part 1 in the channel. 4
  • the base plate 1, 2 is like the coupling rail 30 an axially elongated, plate-shaped structure with a measured width in the transverse direction Y, which is smaller than the axial extent.
  • the perpendicular to the top of the base plate 1, 2 measured thickness of the channel 4 forming profile of the base plate 1, 2 is again significantly smaller than its width.
  • the profile forming the channel 4 is advantageously only a few millimeters above the top of the sliding board, advantageously at most 15 mm and more preferably at most 10 mm.
  • the coupling rail 30 is in sliding contact both with the underside of the connecting web of the U-profile and the sliding surface 8, optionally directly to the top of the sliding board, and in preferred embodiments, less than 1 mm, preferably less than 0.5 mm game, wherein a possible game is measured perpendicular to the top of the base plate 1, 2 or in the mounted state perpendicular to the top of the sliding board.
  • a flat layer-like structure of U-profile connecting web, coupling rails 30 and optionally the sliding surface 8 is preferred.
  • the guide rails of the axial guide 3 protrude at the top of the base plate 1, 2 from the flat U-profile to the left and to the right.
  • the axial guide 3 could also be formed by axial grooves or grooves or inwardly projecting guide rails, a wraparound of the axial guide 3 is as far as possible on the left and right as already mentioned, however, for the transmission of force and torque advantage.
  • the base plate 1, 2 has in its front, the holding unit 10 associated region, ie in the region of the base plate part 1, an engagement structure 5.
  • the engagement structure 5 is formed on an upper side of the base plate 1, 5 as an axially extending passage with lateral engagement elements 6, which exemplarily form an axially extending toothing in the manner of a rack.
  • the penetration extends into the channel 4.
  • the engagement structure 5 includes by way of example and preferably two mutually transverse in the transverse direction Y rows of axially disposed within the respective row axially adjacent engagement elements 6, which limit the passage formed by the engagement structure 5 on the left and right. In a modification, one of the two rows of engagement elements 6 could be dispensed with and the passage on the corresponding side could simply be smooth, for example.
  • the base plate 1, 2 has in its rear portion, in the base plate part 2, at its upper side in the transverse web Y extending connecting web of its U-profile also formed as a passage recess 7.
  • the recess 7 runs in the longitudinal direction X to the rear at an open end and ends forward within the base plate 1, 2, that is in the longitudinal direction X bag-shaped.
  • the coupling rail 30 has, in a front portion, an engagement structure 35 which corresponds to the engagement structure 5 of the base plate 1, 2.
  • a further engagement structure 38 is provided in a rear portion, by way of example near the rear end.
  • the rear engagement structure 38 serves for the axial support of the holding unit 20.
  • the front engagement structure 35 includes, like the engagement structure 5 of the base plate 1, 2 axially adjacent engagement elements 36.
  • two Rows of engagement elements 36 provided on mutually in the transverse direction Y opposite sides of the engaging structure 35 formed as a passage in the coupling rod.
  • the engagement elements 36 are as preferred, but only by way of example, the same shape of the engagement elements 6.
  • the engagement structures 5 and 35 are components of a locking mechanism, which serves for the axial fixation of the holding units 10 and 20 relative to the base plate 1, 2 and the longitudinal adjustment of the holding units 10 and 20.
  • FIG. 2 shows further components of the locking mechanism and a coupled in the assembled state with this actuating mechanism, which includes the operating member 40.
  • this actuating and locking mechanism are shown individually and relative to each other in positions from which the interaction in the assembled and assembled state can be seen.
  • the holding units 10 and 20 the components required for holding and releasing the shoe, namely the structure on the carriers 11 and 21, are omitted.
  • the holding unit 20 comprises a support member 26 having an engagement structure 28 which is engageable with the engagement structure 38 of the coupling rail 30 and in engagement of the axial support of the holding unit 20 on the coupling rail 30 and via this on the base plate 1, 2 is used.
  • the engagement structure 38 of the coupling rail 30 is referred to below as engagement counter-structure 38.
  • the support member 26 is a compact body, which is a form-fitting connectable to the carrier 21 holding part 27 which is as preferred on the underside of the holding unit 20 in this form-fitting inserted, and the engagement structure 28 includes.
  • the engagement structure 28 protrudes from the holding part 26 down and in the assembled state of the holding unit 20 on the underside down in the direction of the base plate 1, 2 before.
  • the engagement structure 28 can be inserted into the engagement counter-structure 38 along a vertical axis Z pointing vertically to the upper side of the base plate 1, 2, relative to the assembled state of the binding.
  • the engagement counter-structure 38 forms a female and the engagement structure 28 forms a male part of the engagement.
  • the engagement counter-structure 38 may be provided in a recess of the coupling rail 30, in a penetration or in a flat construction on the upper side of the coupling rail 30 or, as in the embodiment, by means of a combination of penetration and flat structure.
  • the engagement counter-structure 38 and correspondingly the engagement structure 28 each have a plurality of axially adjacent engagement elements on both sides.
  • one of the two rows of engagement elements for example, rows of teeth, can be replaced by a smooth wall.
  • the engagement structure 28 and the engagement counter-structure 58 may even have a smooth wall each circumferentially, but a finer patterning is preferred for the engagement.
  • the support member 26 serves the holding unit 20 not only as a pure axial support in the sense of an axially absolutely fixed fix, but the holding unit 20 in positive engagement with the holding part 27 of the support member 26 relative to this axially movable. It is supported against the restoring force of a starting spring 29 on the support member 26 and in the assembled state via this on the coupling rail 30 and the base plate 1, 2 from axially movable.
  • the sprung Axialbewegige serves the length compensation of elastic bends, which can experience the sliding board while driving.
  • the positive engagement of support unit 20 and support member 26 preferably only permits relative axial movements and places the support member 26 on the support unit 20, more specifically the support unit 20 on the support member 26 when in engagement with the engagement counter structure 38 with respect to all other degrees of freedom of movement firmly.
  • FIG. 3 shows the front area of the binding in one opposite FIG. 2 enlarged view, but otherwise unchanged.
  • the locking mechanism comprises the engagement structures 5 and 35 and a locking member 45 with which the first holding unit 10 and the coupling rail 30 and by means of the coupling rail 30 together the second holding unit 20 relative to the base plate 1, 2 can be releasably fixed in different axial positions.
  • the locking member 45 is reciprocably supported by the first holding unit 10 between a locking position and a release position.
  • the locking member 45 is linearly movable and has relative to the carrier 11 only the translational degree of freedom along a single axis, for example as preferred along the vertical axis Z.
  • the carrier 11 has for the linear guide on a guide member 15 in the form of a passage, the locking member 45 as preferably protrudes at least in the release position.
  • the locking member 45 is a compact body having a guide member 47 which, in cooperation with the guide member 15 for the linear guide of the locking member 45 relative to the carrier 11 provides, and a Z-direction on the guide member 47 engaging engagement member with a Eingriffsussi Modell 46 for the engagement structures 5 and 35.
  • the engagement counter-structure 46 is shaped complementarily to the engagement structures 5 and 35.
  • the locking member 45 In the locking position, the locking member 45 is in locking engagement with both the engagement structure 5 and the engagement structure 35.
  • the engagement structure 35 extends in the channel 4 below the engagement structure 5 of the base plate 1, 2.
  • the engagement structures 5 and 35 are seen in plan view in overlap.
  • the engagement counter-structure 46 In locking engagement engages the engaging counter-structure 46 of the locking member 45 from above the engagement structure 5 and is in the penetration therewith in a first locking engagement, the engagement counter-structure 46 is in the locking position of the locking member 45 further in second locking engagement with the engaging structure 5 extending engagement structure 35 of the coupling rail 30th
  • it also engages through the engagement structure 35, which also includes the case that it extends in the locking position only to the bottom of the engagement structure 35.
  • the locking member 45 is movable against a spring force generated by a spring means 50 from the locking position towards the release position, preferably upwards, in the mounted state of the binding away from the sliding board.
  • the spring device 50 consists of several springs, for example, two springs.
  • the springs are the geometry after coil springs and the function of compression springs, but this is only to be understood as an example.
  • the spring device 50 may also have more than two springs or even a single spring. Also advantageous is the arrangement of the springs symmetrical to both sides of the guide member 47 to apply the locking member 45 only in the one direction of its mobility with spring force and to avoid tilting moments.
  • Part of the locking and actuating mechanism is also a coupling member 44, for example in the form of a pivot lever.
  • the coupling member 44 couples the operating member 40 with the locking member 45 and is as preferred, but only by way of example with the operating member 40 and the locking member 45 each directly in engagement.
  • the operating member 40 is mounted in the assembled state of the holding unit 10 of this about a pivot axis R 1 pivotally.
  • the pivot axis R 1 extends parallel to the transverse direction Y.
  • the coupling member 44 is pivoted within the assembled holding unit 10 about a likewise parallel to the transverse direction Y extending pivot axis R 2 and forms on one side of its pivot axis R 2 to the operating member 40 facing the pivot arm 48 and It is with its pivot arm 48 directly in a coupling engagement with the operating member 40 and with its pivot arm 49 directly in a coupling engagement with the locking member 45th
  • the locking member 45 has for this coupling engagement on a coupling element 47a, which is exemplified by on both sides of the locking member 45 and there again exemplarily in the region of the guide member 47 is formed by a respective recess.
  • the pivot arm 49 is corresponding fork-shaped with two Schwenkarm former, which engage on both sides in the coupling element 47 a formed by the two recesses.
  • the coupling member 44 presses corresponding pivoting operation by the operating member 40 in a loose pressure contact against the locking member 45 and raises the locking member 45 while against the restoring force of the spring means 50 from the locking position up in the direction and with appropriate operation by means of the operating member 40 to the release position.
  • a bearing part 17 which in FIG. 3 detached from the carrier 11 is shown.
  • the bearing part 17 may be latched to the carrier 11, for example.
  • the carrier 11 and the bearing part 17 together form a pivot bearing for the operating member 40.
  • a bearing 18 for the shaft 41, an open bearing eye the bearing part 17 is designated.
  • a bearing for the pivotal mounting of the coupling member 44 is designated.
  • At the bottom of the carrier 11 corresponding bearing counter-elements are formed, which determine in cooperation with the bearings 18 and 19, the pivot axes R 1 and R 2 relative to the carrier 11 stationary.
  • the operating member 40 is movable about the pivot axis R 1 , between a first pivot position, a pivoted neutral position, and a second pivot position back and forth.
  • the operating member 40 is in its in FIG. 1 assumed neutral position in one of the second holding unit 20 facing, in the direction of the holding unit 20 exemplarily open recess 16 of the carrier 11 pivoted so that it comes to rest below the contact surface formed by the shoe for the shoe and thus of the shoe sole and in use the binding can not be loaded with forces caused by the shoe.
  • the operating member 40 is out of the neutral position with its rear free end up in the in FIG. 1 indicated pivoting direction S in the direction of the second pivot position pivotally.
  • an eccentric 42 is formed, which protrudes to one side of the pivot axis R 1, in befindlichem in neutral position control member 40 to the front.
  • these are two eccentric cams arranged symmetrically on both sides of a central longitudinal axis of the operating element 40.
  • the operating member 40 is with its eccentric 42 in coupling engagement with the coupling member 44.
  • the operating member 40 forms a two-armed pivot lever, with a measured on the pivot axis R 1 shorter pivot arm, which forms the eccentric 42 and one on the other side of the pivot axis R 1 projecting longer pivot arm, which forms the operating or handle region of the operating member 40 and is in the neutral position in the recess 16 of the carrier 11.
  • the pivot arm 48 of the coupling member 44 is forked into two Schwenkarmmaschine.
  • the eccentric 42 is in coupling engagement with each of the swing arm parts.
  • Between the two Schwenkarm turn remains a free recess into which the operating member 40 projects with a further shaft 43, at least in one of the neutral position pivoted vertex position.
  • the further shaft 43 forms with a bearing element 51 a swivel joint, by engaging in a bearing 52 formed on the bearing member 52.
  • the bearing piece 51 is axially reciprocally supported on the bearing part 17 against the restoring force of a spring 53.
  • the arrangement is chosen so that the spring force of the spring 53 exerts on the bearing member 51 on the operating member 40 a torque which tends to pivot the operating member 40 from a swung-out state back to the neutral position.
  • the operating member 40 thus pivots against the force of the spring means 50 and also the force of the spring 53 from the neutral position in the pivoting direction S.
  • the actuator mechanism 40 comprehensive actuation mechanism is that the most swung, second pivot position for the operating member 40 is a stable pivot position. This is achieved by means of the eccentric 42.
  • the eccentric 42 is shaped with respect to the pivot axis R 1 of the operating member 40 and the second pivot position is selected so that the eccentric 42 in the course of the pivoting movement from the neutral position to the second pivot position in coupling engagement with the coupling member 40 formed as a cam joint or dead center, the vertex position of the operating member 40, passes through and occupies an over-dead-center position in the second pivot position.
  • the coupling engagement of eccentric 42 and coupling member 44 is a sliding contact, in which the eccentric 42 along the pivot arm 48 against this pushing, for example, from above, along slides while itself about the pivot axis R 1 , due to its eccentric arrangement, the pivot arm 48 pushes down and thereby pivoting the other pivotal arm 49 upwardly and, as a result, lifting the locking member 49 upwardly from the locking position towards the release position.
  • FIGS. 4 and 5 show the mounted holding unit 10 with the locking member 45 located in the release position
  • FIGS. 6 to 8 takes the locking member 45, the locking position in which it is acted upon by the spring means 50 with spring force.
  • the operating member 40 is in this locked state of the binding in its pivoted-in neutral position.
  • the locking member 45 engages in the locking position, the engagement structure 5 and is in the passage with this in locking engagement. Furthermore, it passes through the engagement structure 35 located underneath the engagement structure 5 Coupling rail 30 and is in the penetration also with this in the locking engagement, respectively as preferred in a tooth engagement.
  • the coupling member 44 is subject between the coupling engagement with the operating member 40 and the coupling engagement with the locking member 45 preferably a bending stress, which is expediently only small and the locking member 45 can not lift out of the locking engagement.
  • the spring device 50 is preferably biased when befindlichem in the locking position locking member 45.
  • the locking member 45 In order to make a longitudinal adjustment, the locking member 45 must be moved from the locking position in the direction of the release position. This is done manually with the help of the operating element 40, a tool is preferably not necessary.
  • the operating member 40 can be engaged for this purpose at its free rear end and swung against the force of the spring means 50 and against the force of the other spring 53 from the neutral position in the direction of the second pivot position.
  • a lever is inserted under the handle portion of the operating member 40 to swing this out.
  • the eccentric 42 in this case describes a circular movement about the pivot axis R 1 and presses in coupling engagement with the coupling member 44 and thereby presses its pivot arm 48 (FIG. FIG. 3 ) down and its pivot arm 49 upwards.
  • the coupling member 44 acts in the manner of a rocker. It lifts due to the upward movement of its pivot arm 49, the locking member 45 upwards, first in sliding contact from the locking engagement with the engagement structure 35 of the coupling rail 30 and in the course of the movement in sliding contact also from the locking engagement with the engagement structure 5 of the base plate 1, 2.
  • the pivot position upon reaching the locking engagement with the engagement structure 35 is released, but the locking engagement with the engagement structure 5 still exists, may be a detent position of the operating member 40, in which the operating member 40 is secured in a releasable latching engagement relative to the holding unit 10 , At least when the operating member 40 has reached the vertex position, such as FIG. 5 this illustrates, any locking is solved.
  • both holding units 10 and 20 can be moved relative to the base plate 1, 20 independently of one another and thus also relative to one another along the axial guide 3.
  • the adjustment positions of the holding units 10 and 20 may optionally be predetermined by disengageable latching engagement, preferably by exerting only axial force in accordance with the pitch of the engagement structures 5 and 35 in discrete steps, for example along the axial guide 3 and the axial guides 13 and 13 therewith in guiding engagement 23 of the holding units 10 and 20.
  • the axial distance between the holding units 10 and 20 are adjusted to adjust the binding to a different shoe length. In this adjustment, the axial center of gravity position of the shoe or driver maintained or changed. It is also possible to adjust both holding units 10 and 20 axially, while maintaining the axial distance, in order to change only the position of the center of gravity.
  • the operating member 40 can via the in FIG. 5 shown vertex position also be pivoted further into an over-dead center position of the eccentric 42.
  • the locking and actuating mechanism may be formed as preferred so that the locking member 45 has been moved so far out of engagement with the engagement structure 35 when located in the vertex position control member 40 that the further pivoting in the over-dead center position only one return stroke of such causes a short length that not again the interlocking engagement with the engagement structure 5 is made again.
  • the locking member 45 continues in the over-dead-center position located operating member 40, the release position.
  • the locking and actuating mechanism can also be designed so that the pivoting back movement of the coupling member 40 that accompanies the pivoting of the operating member 40 from the vertex position to the over-dead-center position is so pronounced that the return stroke associated therewith due to the spring device 50 the locking member 45 brings this back into the locking engagement only with the engagement structure 5 of the base plate 1, 2.
  • the coupling rail 30 and thus together the holding unit 20 would be axially displaceable, while the holding unit 10 would be locked and thus could not be adjusted.
  • the coupling rail 30 is inserted into the channel 4, preferably up against an impact in the front region of the base plate 1, 2.
  • the holding unit 20 with its engagement structure 28 (FIG. FIG. 2 ) is brought into engagement with the engagement counter-structure 38 of the coupling rail 30.
  • the coupling rail 30 is fully inserted with the already engaged holding unit 20 in the channel 4 while the axial guide 23 of the holding unit 20 in the guide engagement with the axial guide 3 of the base plate 1, 2 pushed.
  • the first holding unit 10 can be brought into the guiding engagement with the axial guide 3 before or after the insertion of the coupling rail 30.
  • the locking member 45 assumes its release position, the operating member 40 according to its second pivot position.
  • the two holding units 10 and 20 are brought into the desired axial positions.
  • the operating member 40 is pivoted to the neutral position and thereby the locking member 45 is moved to the locking position. Gliding board and binding are ready to use. Later longitudinal adjustments can be carried out in a simple manner with a few simple steps, as explained above.
  • the latch member 45 is preferably located below the footprint formed by the binding for the shoe as the lock position is taken, as in FIG. 7 can be seen by way of example. It is preferably configured and arranged such that, in order to release the locking engagement with the coupling rail 30, it must already pass beyond the footprint so that, in use of the binding by the held shoe, it will move out of the locking position in which the locking member 45 engages both Engagement structures 5 and 35 is in locking engagement, is prevented.
  • the locking member 45 is arranged in plan view, in the XY plane, in the transverse direction Y between the left and the right sole holder 12, by way of example as preferred in a central area with respect to the transverse direction Y.
  • the locking member 45 is arranged as preferred and exemplified between a bearing body for the sole holder 12 and the contact surface formed by the support 14 in an area under the shoe to be held.
  • An optional, but also advantageous feature is the arrangement of the operating member 40 in the rear region of the first holding unit 10.
  • FIGS. 9 and 10 show the holding unit 20 in the assembled state and in particular the engagement of the support member 26 and coupling rail 30 by means of the engagement structures 28 and 38.
  • the support member 26 axially immovable with the coupling rail 30 and about this in existing locking engagement of the locking member 45 also axially immovable with the base plate 1, 2 connected.
  • the second holding unit 20, however, can move axially relative to the support member 26 back and forth within a certain frame and is thereby loaded by the starting spring 29 in a stop position against the support member 26.
  • FIGS. 11 to 13 show a binding of a second embodiment, which differs from the first embodiment with respect to details of the actuating mechanism.
  • the reference numerals of the first embodiment are used.
  • the embodiments of the first embodiment also apply to the second.
  • the second embodiment differs from the first by the way in which the operating member 40 is secured spring loaded.
  • the linearly reciprocating in the first embodiment bearing member 51 is replaced by a back and forth pivotable bearing member 54.
  • the bearing element 54 is at least substantially rod-shaped. It is supported on an axial end on the bearing part 17 and at the other axial end of the operating member 40 and is pivotally supported in the region of the bearing part 17 end about an axis parallel to the pivot axis R 1 the pivot axis.
  • the spring 55 is supported at one end in the direction of the pivot axis of the bearing element 54 on the bearing element 54 and with its other end on the operating member 40th
  • this spring safety 54, 55 is in the side views of FIGS. 12 and 13 recognizable.
  • the locking member 45 assumes its locking position.
  • the operating member 40 is in its neutral position, the first pivot position. As in the first embodiment, it is located below a footprint of the first holding unit 10. The same applies to the locking member 45.
  • the embodiments are equal to each other.
  • the operating member 40 assumes its second position, it is swung out.
  • the locking member 45 moves to the release position.
  • the binding is unlocked.
  • the locking member 45 and the operating member 40 are above the footprint of the first holding unit 10 upwards.
  • the latch member 45 may be color-coded to be distinctly different from its immediate environment within the binding, thus signaling, by virtue of its position and color, that the binding is unlocked. Such an indication of the lock state may be realized also in the first embodiment.
  • the bearing element 55 pivots about its pivot axis.
  • the spring 55 is initially tensioned in the movement from the first position to the second and vice versa from the second position to the first, until the spring tension is greatest when reaching an intermediate position, and then relaxes again. This contributes to stabilizing the operating member 40 in the two end positions, the first and the second pivot position.

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  • Clamps And Clips (AREA)
  • Seats For Vehicles (AREA)
  • Sheet Holders (AREA)
EP11185706.6A 2010-10-20 2011-10-19 Fixation pour planche de glisse dotée d'unités de retenue réglables dans le sens de la longueur Not-in-force EP2444131B1 (fr)

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DE102010048963A DE102010048963A1 (de) 2010-10-20 2010-10-20 Bindung für ein Gleitbrett mit in Längsrichtung verstellbaren Halte einheiten

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EP2444131B1 EP2444131B1 (fr) 2015-04-15

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2594321A1 (fr) * 2011-11-18 2013-05-22 MARKER Deutschland GmbH Connexion destinée à une planche de glisse avec un élément de support
FR2986975A1 (fr) * 2012-02-22 2013-08-23 Salomon Sas Fixation polyvalente d'une chaussure sur une planche de glisse
EP2923741A1 (fr) * 2014-03-28 2015-09-30 MARKER Deutschland GmbH Liaison détachable dotée d'un levier de fixation et de libération d'un support de chaussure
WO2015150216A1 (fr) * 2014-03-31 2015-10-08 Vist Tech S.R.L. Fixation de ski
IT201600080204A1 (it) * 2016-07-29 2018-01-29 Vist Tech S R L Attacco da sci.
US20180345120A1 (en) * 2015-11-30 2018-12-06 Rottefella As System for optional dynamic positioning of a ski binding on a ski

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* Cited by examiner, † Cited by third party
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NO20170170A1 (no) * 2017-02-03 2018-04-30 Rottefella As Monteringssystem for binding

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DE3523058A1 (de) 1985-06-27 1987-01-08 Marker Deutschland Gmbh Laengsverstellbare sicherheits-skibindung
WO1989007475A2 (fr) * 1988-02-19 1989-08-24 Tmc Corporation Fixation de ski
WO2003043707A1 (fr) * 2001-11-23 2003-05-30 Tyrolia Technology Gmbh Dispositif conçu pour une fixation de ski pouvant etre positionnee sur un ski
EP1652560A1 (fr) 2004-10-28 2006-05-03 Look Fixations S.A. Dispositif de réglage pour accessoire tel une butée avant de fixation de ski
EP1652559A1 (fr) 2004-10-28 2006-05-03 Look Fixations S.A. Dispositif de réglage pour accessoire tel une talonnière de fixation de ski
FR2934787A1 (fr) * 2008-08-05 2010-02-12 Salomon Sas Dispositif de fixation de securite pour un ski
DE102009051185A1 (de) 2008-11-03 2010-05-06 Atomic Austria Gmbh Schibindung mit einer Positionier- und Fixiervorrichtung für deren Backenkörper

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Publication number Priority date Publication date Assignee Title
DE3523058A1 (de) 1985-06-27 1987-01-08 Marker Deutschland Gmbh Laengsverstellbare sicherheits-skibindung
WO1989007475A2 (fr) * 1988-02-19 1989-08-24 Tmc Corporation Fixation de ski
WO2003043707A1 (fr) * 2001-11-23 2003-05-30 Tyrolia Technology Gmbh Dispositif conçu pour une fixation de ski pouvant etre positionnee sur un ski
EP1652560A1 (fr) 2004-10-28 2006-05-03 Look Fixations S.A. Dispositif de réglage pour accessoire tel une butée avant de fixation de ski
EP1652559A1 (fr) 2004-10-28 2006-05-03 Look Fixations S.A. Dispositif de réglage pour accessoire tel une talonnière de fixation de ski
FR2934787A1 (fr) * 2008-08-05 2010-02-12 Salomon Sas Dispositif de fixation de securite pour un ski
DE102009051185A1 (de) 2008-11-03 2010-05-06 Atomic Austria Gmbh Schibindung mit einer Positionier- und Fixiervorrichtung für deren Backenkörper

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2594321A1 (fr) * 2011-11-18 2013-05-22 MARKER Deutschland GmbH Connexion destinée à une planche de glisse avec un élément de support
FR2986975A1 (fr) * 2012-02-22 2013-08-23 Salomon Sas Fixation polyvalente d'une chaussure sur une planche de glisse
EP2923741A1 (fr) * 2014-03-28 2015-09-30 MARKER Deutschland GmbH Liaison détachable dotée d'un levier de fixation et de libération d'un support de chaussure
WO2015150216A1 (fr) * 2014-03-31 2015-10-08 Vist Tech S.R.L. Fixation de ski
US20170173443A1 (en) * 2014-03-31 2017-06-22 Vist Tech S.R.L. Ski binding
US20180345120A1 (en) * 2015-11-30 2018-12-06 Rottefella As System for optional dynamic positioning of a ski binding on a ski
IT201600080204A1 (it) * 2016-07-29 2018-01-29 Vist Tech S R L Attacco da sci.

Also Published As

Publication number Publication date
DE102010048963A1 (de) 2012-04-26
EP2444131B1 (fr) 2015-04-15

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