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EP1952856A1 - Ski ou snow-board doté d'un élément de transmission de force de type plaque - Google Patents

Ski ou snow-board doté d'un élément de transmission de force de type plaque Download PDF

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Publication number
EP1952856A1
EP1952856A1 EP08001387A EP08001387A EP1952856A1 EP 1952856 A1 EP1952856 A1 EP 1952856A1 EP 08001387 A EP08001387 A EP 08001387A EP 08001387 A EP08001387 A EP 08001387A EP 1952856 A1 EP1952856 A1 EP 1952856A1
Authority
EP
European Patent Office
Prior art keywords
plate
transmission element
board body
ski
sliding board
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
EP08001387A
Other languages
German (de)
English (en)
Other versions
EP1952856B1 (fr
Inventor
Bernhard Ing. Riepler
Rupert Huber
Helmut Dipl.-Ing. Holzer
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.)
Atomic Austria GmbH
Original Assignee
Atomic Austria 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 Atomic Austria GmbH filed Critical Atomic Austria GmbH
Publication of EP1952856A1 publication Critical patent/EP1952856A1/fr
Application granted granted Critical
Publication of EP1952856B1 publication Critical patent/EP1952856B1/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
    • A63C5/00Skis or snowboards
    • A63C5/06Skis or snowboards with special devices thereon, e.g. steering devices
    • A63C5/07Skis or snowboards with special devices thereon, e.g. steering devices comprising means for adjusting stiffness
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C5/00Skis or snowboards
    • A63C5/04Structure of the surface thereof
    • A63C5/0428Other in-relief running soles
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C5/00Skis or snowboards
    • A63C5/12Making thereof; Selection of particular materials
    • A63C5/126Structure of the core
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C5/00Skis or snowboards
    • A63C5/12Making thereof; Selection of particular materials
    • A63C5/128A part for the binding being integrated within the board structure, e.g. plate, rail, insert
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C5/00Skis or snowboards
    • A63C5/003Structure, covering or decoration of the upper ski surface
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C5/00Skis or snowboards
    • A63C5/04Structure of the surface thereof
    • A63C5/0422Longitudinal guiding grooves
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C5/00Skis or snowboards
    • A63C5/12Making thereof; Selection of particular materials

Definitions

  • the invention relates to a ski or a snowboard in the form of a board-like sliding device, as specified in claim 1.
  • the DE 24 17 156 A1 describes a ski, which consists of at least two juxtaposed sliding strips. These sliding strips are connected to one another via fastening means such that relative movement of the two sliding strips in the vertical direction to their sliding surface is made possible, at least in their middle section. As a result, a multiple, in particular a double edge support is achieved, which should allow an improved grip against lateral slipping.
  • the mechanical coupling between the two Gleitorn requires complex devices, whereby such a structure has little practicality.
  • the upper chord member is supported at the end portions of the ski such that displacement of the ends of the upper chord member resulting from deflection of the arch increases the bearing portion of the end portions of the ski.
  • the WO 2004/045727 A1 describes an alpine ski with a ski body, which has a running surface on its underside and on its upper surface facing away from the running surface has at least one, in the longitudinal direction of the ski body extending, tensile and compressive forces receiving Obergurtelement.
  • This Obergurtelement is supported with its ends on the ski body, wherein on the upper side of the ski body a wave-shaped support structure is arranged, on which the Obergurtelement is mounted.
  • the wave-shaped support structure is formed from an elongate, flat component, which is bent at intervals about substantially parallel, transverse to the longitudinal direction of the ski extending axes in alternating directions in each case at an angle to the tread.
  • the present invention has for its object to provide a ski or a snowboard, which or which has improved handling characteristics, which with a Such GleitbrettSh achievable performance should be as high as possible. In particular, an improved cornering behavior should be achieved.
  • the claimed board-type gliding device gives the user the required, sufficiently high stability and ensures the claimed gliding device as a whole a high controllability and leadership stability. Above all, it is avoided that with increasing load of the slider during a swing phase, the sliding board body in contact with the ground unexpectedly yields or virtually kinks and suddenly a difficult to control behavior of the board-like slider occurs. In particular, within a relatively high load range of the sliding board body, a harmonious or uniform swing guide can be achieved, which also increases the personal safety when using the sliding board body according to the invention.
  • the specified, plate-like force transmission element thus stabilizes the claimed changed sliding board so that a good controllability and a favorable leadership behavior can be achieved.
  • the embodiment according to claim 5 is advantageous that a particularly break or tear-resistant connection between the plate-like power transmission element and the sliding board body can be created.
  • the production cost for the production of the board-like sliding device can be kept low, since a relatively short assembly time for the connection between the plate-like power transmission element and the sliding board body can be achieved.
  • this can be long-term reliable, board-like Sliding devices are created whose properties remain largely constant even after long-term or intensive use. In particular, gradual loosening of fastening screws due to widening of the material for a tight fit of the fastening screws are better prevented or avoided.
  • damping elements By the measures according to claim 6, referring to the plan view of the plate-like power transmission element, relatively large-area damping elements can be used, which have an optimized damping characteristic or elasticity.
  • the mechanical stress of such damping elements can be kept as low as possible due to their relatively far-reaching extent.
  • the damping element is secured in a simple and reliable manner from falling out or tearing out of the plate-like power transmission element.
  • it can also be used by default fixing screws for mechanical coupling between the plate-like power transmission element and the sliding board body, whereby the total cost of producing the board-like sliding device can be kept as low as possible.
  • the measures according to claim 11 offer the advantage that, despite relatively thin executable plate height of the plate-like power transmission element, a high tear resistance of the screw means for mounting a binding device is achieved. Nevertheless, it is ensured that the plate-like force transmission element with the binding device fixed thereon remains slidable in the longitudinal direction as freely as possible relative to the sliding board body arranged underneath, so that tension between the said components is minimally avoided during deflection thereof.
  • the overall height which includes the plate thickness of the plate-like power transmission element and the strength or height of GleitbrettSh be kept relatively low to occasionally unfavorably high riot heights of the user against the ground, especially with respect to the slope to avoid can.
  • a power transmission element that meets the requirements of strength, design and economy in particular is achieved by the measures according to claim 21.
  • the plate-like power transmission element can achieve a relatively high stability or torsional stiffness despite relatively low height.
  • the width profile of the plate-like power transmission element the widthwise course of the sliding board body follows approximately and the width dimensions of the plate-like force transmission element substantially correspond to the width dimensions of the Gleitbrett stressess or are only slightly smaller, a relatively lightweight and at the same time relatively stable, plate-like power transmission element can be created.
  • a board-like sliding device 1 with improved handling characteristics, in particular striking damping or cushioning properties shown.
  • a ski 2 is shown schematically, whose sliding or cornering behavior and its inherent dynamics are advantageous for a plurality of users, wherein in these figures, only the most essential components are shown by way of example. In addition, only the most essential sub-components, in particular the sliding board base body and the plate-like force transmission element are illustrated in individual figures.
  • the upper side 7, ie the upper outer surface of the sliding device 1, is formed by a covering layer 8, which predominantly fulfills a protective and decorative function.
  • the underside 9, ie the lower surface of the sliding device 1, is formed by a tread covering 10, which as good sliding properties against the corresponding surface, especially against snow or ice has.
  • the cover layer 8 may extend at least partially over the side cheeks of the board-like sliding device 1 and together with the tread surface 10 form a box-like structure, as in particular the cross-sectional view according to Fig. 4 can be seen.
  • the lateral edges of the tread 10 are preferably limited by control edges 11, 12, preferably made of steel, to allow as exact as possible or largely non-slip guidance of the sliding device 1, even on relatively hard ground.
  • the plate-like power transmission element 13 to a so-called sidecut, which is formed in particular by arcuate incisions on the longitudinal side edges of the plate-like power transmission element 13, so that in plan view of the plate-shaped force transmission element 13 results in a substantially concave outline contour.
  • the waist or the side shape of the plate-like force transmission element 13 is running approximately the same running or substantially uniform to the sidecut or side shape of the sliding board body, as in Fig. 3 was exemplified.
  • the width 47 of the plate-like force transmission element 13 is preferably chosen smaller in all longitudinal sections, as the corresponding width 14 of the sliding board body within the same or congruent longitudinal section.
  • the plate-like force transmission element 13 does not protrude beyond the longitudinal side edges of the sliding board body.
  • a highly effective plate-like force transmission element 13 a high level of personal or injury safety of the sliding device 1 can be achieved.
  • the distal ends of the force transmission element 13 are relative to the upper side 7 of the sliding board body in the longitudinal direction relatively movable, so that relative displacements between the force transmission element 13 and the sliding board body are made possible when the corresponding sliding device 1 is subjected to a sag or bending.
  • the plate-like power transmission element 13 is supported within its longitudinal extent at least in partial sections on the upper side 7 of the sliding board body load or force transmitting from. According to the illustrated embodiment, the underside of the plate-like power transmission element 13 is supported almost over the entire surface on the top side 7 of the sliding board body. Alternatively, it is also possible to provide on the underside of the plate-like power transmission element 13 sparsely arranged support zones relative to the top 7 of the sliding board body. In this case, the support zones are positioned at least in the end portions of the power transmission element 13 such that the plate-like power transmission element 13 is at least in its end portions load or force transmitting supported on the underlying sliding board body.
  • the plate-like force transmission element 13 extends over more than 50% of the length to the rear end of the gliding board body, starting from a binding mounting center point 15 provided by the manufacturer of the sliding board body, and at the same time over more than 50% of the length to extends to the front end of the sliding board body. It is advantageous if the force transmission element 13 extends in about 51% to about 96%, preferably over 66% to 86% of the projected length of the sliding board body. By projected length is meant the length of the sliding board body in top view.
  • the longitudinal extent of the plate-like force transmission element 13 is essentially limited in that the plate-like force transmission element 13 is not intended to extend into the upwardly bent blade portion or end portion of the sliding board body so as not to interfere with the relative displacements between the ends of the plate-like force transmission element 13 and the sliding board body be when this leaf-spring-like packet of force transmission element 13 and sliding board body is subjected to a downward deflection or an increase of the binding mounting portion or the central portion relative to the end portions.
  • the positive coupling means 19, 20 is designed such that it permits longitudinal displacements compensating relative movements between the force transmission element 13 and the sliding board body in the longitudinal direction of the sliding board body when the sliding board body and the plate-like power transmission element 13 is subjected to a deflection, as for example when driving through depressions occurs.
  • the positive coupling means 19, 20 are designed such that it prevents relative displacements between the force transmission element 13 and the gliding board body in the transverse direction to the longitudinal extent and substantially parallel to the tread surface 10 of the gliding board body as possible or increased resistance to such displacement tendencies.
  • the positive coupling means 19, 20 is preferably designed such that on the underside 18 of the force transmission element 13 at least one wart- or strip-like projection 21, 22 is formed, which engages in a corresponding or opposite recess 23, 24 in the top 7 of the sliding board body to improve the mechanical coupling between said components.
  • the at least one, but preferably double-stranded running, wart-like projection 21, 22 on the underside 18 of the power transmission element 13 can according to an advantageous embodiment, but also for receiving the front portion, in particular of the tip portion 25 of Screwing means 16, 17 are used for fastening the binding device 3 on the plate-like power transmission element 13.
  • the previously described screw means 16, 17, whose tip portions 25 extend into the material of the projections 21, 22, may also be provided for the attachment of guide elements, in particular of guide rails or of so-called binding plates for the jaw body of the binding device 3.
  • a profile height 26 of the at least one, preferably strip-like projection 21, 22 decreases continuously from the binding mounting center point 15 towards the rear and front end of the sliding board body and preferably runs to zero.
  • a receiving depth 27 of the at least one, preferably groove-like recess 23, 24 continuously decreases from the binding mounting center point 15 towards the rear and front end of the sliding board body and preferably also runs to zero.
  • the at least one recess 23, 24 and the at least one projection 21, 22 corresponding thereto leak from the binding mounting center point 15 toward the distal ends of the gliding board body and the plate-like force transmitting member 13, respectively, and terminate before the ends of the gliding board body ,
  • these projections 21, 22 gradually flatten over the underside 18 of the plate-like transmission element 13 and eventually completely disappear.
  • the projections 21, 22 and / or the corresponding recesses 23, 24 can also end in a jump. How best of the Fig.
  • the recess 23, 24 thus have the largest receiving depth 27, while the receiving depth 27 becomes progressively smaller as it approaches the end portions of the sliding board body or abruptly reduced and finally preferably expires towards zero.
  • screw means 16, 17 are anchored for fixing the binding means 3 only within the plate-like power transmission element 13 and are not anchored in the sliding board body or are not screwed into the underlying sliding board body.
  • the relative mobility between the plate-like force transmission element 13 and the gliding board body is maintained when said components are passed through or bent in relation to an axis extending transversely to their longitudinal direction.
  • these screw means 16, 17 for fixing the binding means 3 may also act indirectly and in particular the intermediate binding plate or a guide rail assembly for the jaw body of the binding device 3 on the plate-like power transmission element 13 set tear-off.
  • the profile height 26 of the wart- or strip-like projection 21, 22 and a plate height 28 of the plate-like force transmission element 13 is at least equal to or greater than a screw-29 of the screw means 16, 17 for the determination of the binding device 3 or their components.
  • the binding device 3 or a correspondingly required component of the binding device 3 is firmly connected exclusively to the plate-like force transmission element 13, without a direct or direct screw connection with the sliding board body.
  • This relatively low overall height of the sliding device 1 and its still practical strength or rigidity is achieved mainly by a multi-layer, plate-like load transfer body, in particular by the plate-like power transmission element 13 which is coupled across form at least one positive coupling means 19, 20 with the actual sliding board body.
  • the sliding device 1 - Fig. 3 - Is mounted on the upper side of the plate-like power transmission element 13, a binding device 3.
  • the screw means 16, 17 - Fig. 1 - For direct or indirect mounting of the binding device 3 are anchored exclusively in the plate-like power transmission element 13.
  • the plate-like power transmission element 13 in turn is on the separately formed connecting means 31 within the connection zones 30 with the actual sliding board body tear-resistant - but elastically yielding - connected, as will be explained in detail below.
  • the plate-like power transmission element 13 is connected via at least one screw rigidly connected to the sliding board body, as in Fig. 1 has been illustrated schematically.
  • the plate-like power transmission element 13 relative to the sliding board body remains relatively movable in the longitudinal direction.
  • the plate-like force transmission element 13 is thus over a plurality of longitudinally spaced apart connecting means 31 within the corresponding connection zones 30 with the Gliding board body connected such that a lifting or detachment of the plate-like power transmission element 13 is prevented from the top 7 of the sliding board body.
  • screw means may be provided which connect the plate-like power transmission element 13 via slots which are aligned parallel to the longitudinal direction of the power transmission element 13, with the underlying sliding board body such that different bending or chord lengths between the mentioned components can be compensated as freely as possible.
  • the gliding device 1 comprises at least two components carrying the user, in particular the plate-like force transmission element 13 and the gliding board body to be arranged thereunder.
  • the board-like sliding device 1 is thus executed at least two or more parts, said components being coupled together via form-locking connections and / or screw connections.
  • the plate-like power transmission element 13 is connected to or in a plurality of in the longitudinal direction of the plate-like power transmission element 13 to each other distant connection zones 30 with the sliding board body.
  • the number of these connection zones 30 depends essentially on the overall length of the plate-like force transmission element 13 and on its strength or rigidity.
  • seven connection zones 30 are carried out, via which the plate-like power transmission element 13, which may have a length of about 80 cm to about 180 cm, depending on the length of the sliding body arranged below it, with a sliding board body adapted accordingly, ie at least slightly larger Length, is connected.
  • at least four connection zones 30 are provided.
  • the individual connection zones 30 are positioned at a distance of about 15 cm to 30 cm in the longitudinal direction of the plate-like force transmission element 13.
  • the distance between the individual connection zones 30 can also vary in the longitudinal direction of the force transmission element 13, in particular be reduced towards the end sections to a value of approximately 15 cm in order to achieve an optimized interaction between the plate-like force transmission element 13 and the gliding board body.
  • the plate-like Power transmission element 13 and the sliding board body tear-off or detachment connected to each other, so that at least one lifting of the plate-like power transmission element 13 relative to the top 7 of the sliding board body is prevented.
  • an elastically flexible connecting means 31 is executed, which accomplishes an elastically flexible connection between the plate-like power transmission element 13 and the sliding board body.
  • the at least one elastically flexible connecting means 31 is designed such that it sets relative displacements between the plate-like force transmission element 13 and the sliding board body as a result of a through and / or bending of the sliding board body elastically yielding and resiliently resetting resistance.
  • Such a resilient connecting means 31 is disposed at least in the opposite end portions of the plate-like power transmission member 13, as shown in FIG Fig. 1 was exemplified.
  • an elastically flexible connection means 31 for elastically resilient and resilient resetting connection between the plate-like power transmission element 13 and the sliding board body.
  • the elastically yielding connecting means 31 comprises at least one elastomeric damping element 33 received in an opening 32 of the plate-like force transmission element 13.
  • This elastomeric damping element 33 is penetrated by a fastening screw 34 for the separation-secured connection between the plate-like force transmission element 13 and the gliding board body.
  • the elastomeric damping element 33 is dimensioned such, or the fastening screw 34 is positioned relative to the damping element 33 such that with respect to the longitudinal direction of the plate-like force transmission element 13, at least in front of and behind the fastening screw 34 is a partial section of the elastomeric damping element 33.
  • the threaded insert 37 which is at least partially integrated in the sliding board body.
  • the threaded insert 37 extends in the sliding board body into the core 6 of the sliding board body, wherein the core 6 in this case comprises a hard foam plastic, in particular polyurethane foam.
  • the core 6 of the gliding board body can also comprise at least one bar profile.
  • two substantially parallel to the longitudinal direction of the sliding board body extending, in the sliding board body at least partially integrated hollow sections 38, 39 are formed, as shown in the Fig. 4, 5 was exemplified.
  • threaded inserts 37 in the sliding board body which threaded inserts 37 are positioned congruent to the connection zones 30 of the plate-like power transmission element 13, is particularly useful when the core 6 of the sliding board body of foam plastic, in particular polyurethane foam, is formed.
  • foam plastic in particular polyurethane foam
  • threaded inserts 37 may also be unnecessary.
  • a pressure distribution element in particular a washer 40, as shown in FIG Fig. 6 indicated in dashed lines.
  • the Breakthrough 32 in the plate-like power transmission element 13 may be at least partially bridged by a washer 40 for the head of the fastening screw 34.
  • fixing screws 34 can be used with standard screw head and / or apertures 32 or elastomeric damping elements 33 with relatively large extension and is still achieved by means of the washer 40 a reliable lift-off of the plate-like power transmission element 13 relative to the top 7 of Gleitbrett stressess.
  • FIG. 7,8 an advantageous embodiment of the plate-like power transmission element 13 is illustrated in a simplified, exemplary representation.
  • the same reference numerals are used and the preceding descriptions are mutatis mutandis to the same parts with the same reference numerals transferable.
  • the plate-like power transmission element 13 comprises in its function as a relatively large-sized stabilizing or damping means, Fig. 1 - At least one strength-relevant lower flange 42, at least one strength-relevant top flange 43, at least one interposed core element 44 and at least one on at least one side decorated or to be decorated cover layer 45 on the strength-relevant top flange 43.
  • the underside 18 of the plate-like force transmission element 13 is characterized by a sliding layer 46th formed from plastic or the bottom 18 of the plate-like power transmission element 13 is preferably designed as a sliding layer 46. This sliding layer 46 has opposite the top 7 of the cover layer 8 of the sliding board body - Fig. 5 - A reduced or minimal friction resistance.
  • the sliding layer 46 is carried out with respect to the cover layer 8 as abrasion resistant.
  • the sliding layer 46 at the bottom 18 of the plate-like force transmission element 13 may be formed by a thermoplastic moldable plastic layer having similar properties, such as the surface or the cover layer 8 of the sliding board body or similar properties as the tread surface 10 of the sliding board body - Fig. 5 - having.
  • the sliding layer 46 or the underside 18 of the plate-like force transmission element 13 can also be formed by the lower flange 42 of the plate-like force transmission element 13. This is especially true when the lower flange 43 is formed by a so-called prepreg, ie by a fabric impregnated with thermosetting synthetic resin.
  • the bottom and / or top flange 42, 43 of the plate-like power transmission element 13 may also have metallic layers and / or strength-increasing plastic layers in addition to the strength or stiffness relevant prepreg layers, as is known from the prior art in various embodiments.
  • the core element 44 of the plate-like force transmission element 13 may be formed, for example, by an at least partially prefabricated element of rigid foam and / or of wood.
  • the core element 44 is surrounded by a tubular casing which is intended to improve the adhesive connection with the surrounding layers, at least in sections.
  • Fig. 9 a further embodiment of the board-like sliding device 1 is illustrated in a highly simplified, schematic cross-sectional view, wherein the same reference numerals are used for previously described parts and the preceding descriptions can be mutatis mutandis to the same parts with the same reference numerals.
  • a plate-like force transmission element 13 is supported on the upper side 7 of the sliding board body.
  • the upper side of the plate-like force transmission element 13 serves for receiving or holding a binding device 3.
  • an invisible connection is created between the binding device 3 or its rail arrangement 49 and the plate-like force transmission element 13 for the user of the sliding device 1.
  • a head 50 of at least one binding screw 51 which serves for fastening a binding device 3, in particular for fastening the jaw body, rail arrangement 49 and / or binding plate, is assigned to the underside 18 of the plate-like force transmission element 13 next to it.
  • a tip portion 52 of the corresponding binding screw 51 facing away from the head 50 of the at least one binding screw 51 is in this case in a jaw body, in a rail arrangement 49 and / or in a binding plate of the binding device 3.
  • This reinforced or improved connection is especially achieved or achievable when the plate-like force transmission element 13 is made relatively thin and in particular in the region of the screw (s) with the binding device 3 -.
  • the plate-like force transmission element 13 in its binding mounting portion may have a plate height 53 of at most 2 cm, in particular 0.4 cm to 1.5 cm, preferably about 1 cm. Nevertheless, due to the above-described type of connection, sufficient strength or stability of the plate-like force transmission element 13 or the connection between the plate-type force transmission element 13 and the binding device 3 is ensured. Fig. 1 - achievable.
  • the head 50 of the binding screws 51 of the underside 18 of the plate-like force transmission element 13 is assigned or that the head 50 of the at least one binding screw 51 is received in a corresponding recess on the underside 18 of the plate-like power transmission element 13 or is supported, as shown in the figure Fig. 9 can be seen by way of example.
  • the tip section 52 of the at least one binding screw 51 of the binding device 3 is Fig. 1 - And their components, such as the rail assembly 49 assigned or screwed or anchored in its components.
  • the tip section 52 of the at least one binding screw 51 is preferably anchored in a corresponding blind bore 54 on the underside 55 of the binding device 3.
  • the at least one blind hole 54 for anchoring the tip sections 52 of the respective binding screws 51 extends from the underside 55 of the binding device 3 or its rail arrangement 49 in a vertical upward direction, as shown in FIG Fig. 9 was exemplified.
  • the corresponding blind holes 54, which from the bottom 55 of the binding device 3 - Fig. 1 - And its rail assembly 49 go out, so are not designed as breakthroughs and thus for the user of the corresponding Gleitauss 1 apparently not recognizable, so that the appearance of a screwless mounting of the binding device 3 results on the plate-like power transmission element 13 and adjusts.
  • Fig. 10 is an advantageous embodiment of the underside 18 of the plate-like power transmission element 13 in the region of the binding mounting center point 15 by way of example and schematically illustrated.
  • the plate-type force-transmitting element 13 preferably has only one fixed point 56 or as short a fixing zone as possible relative to the sliding board body to be arranged thereunder. This fixing point 56 or this fixing zone is preferably positioned near the binding mounting center point 15.
  • the plate-like power transmission element 13 preferably via screw, in all directions largely unyielding or rigidly connected to the sliding board body to be arranged below.
  • the plate-like power transmission element 13 preferably via screw, in all directions largely unyielding or rigidly connected to the sliding board body to be arranged below.
  • the plate-like power transmission element 13 preferably via screw, in all directions largely unyielding or rigidly connected to the sliding board body to be arranged below.
  • all relative displacements between the plate-like power transmission element 13 and the sliding board body are prevented.
  • ever increasing relative displacements between the plate-like force transmission element 13 and the sliding board body are made possible when the components mentioned are subjected to a sag or bend.
  • a positive connection in the region of the fixed point 56 by means of corresponding depressions or elevations, which reliably prevents relative displacements between the force transmission element 13 and the gliding board body.
  • the plate-like force transmission element 13 can be easily placed on the top of the sliding board body during assembly and is also positioned as planned in the longitudinal direction, resulting in assembly simplifications in the connection or screwing of said components.
  • An advantage of this positive connection also lies in the fact that longitudinal forces or shear or sliding forces can be partially absorbed by this positive connection and not the entire burden of the screw-type fasteners must be added. As a result, the number of screw-type fastening means can be reduced in number and / or dimensioned smaller.
  • the underside 18 of the plate-like power transmission element 13 may also be flat or planar, as shown in the Fig. 7, 8 was illustrated. This is especially true when the connecting means 31 - Fig. 1 - And the screw connections between the plate-like power transmission element 13 and the gliding board body sufficiently stable and / or sufficiently executed numerous.

Landscapes

  • Road Paving Structures (AREA)
  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)
  • Current-Collector Devices For Electrically Propelled Vehicles (AREA)
  • Aiming, Guidance, Guns With A Light Source, Armor, Camouflage, And Targets (AREA)
  • Plural Heterocyclic Compounds (AREA)
EP08001387A 2007-02-02 2008-01-25 Ski ou snow-board doté d'un élément de transmission de force de type plaque Not-in-force EP1952856B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
AT0017207A AT504800B1 (de) 2007-02-02 2007-02-02 Schi oder snowboard mit einem plattenartigen kraftübertragungselement

Publications (2)

Publication Number Publication Date
EP1952856A1 true EP1952856A1 (fr) 2008-08-06
EP1952856B1 EP1952856B1 (fr) 2011-01-12

Family

ID=39155358

Family Applications (1)

Application Number Title Priority Date Filing Date
EP08001387A Not-in-force EP1952856B1 (fr) 2007-02-02 2008-01-25 Ski ou snow-board doté d'un élément de transmission de force de type plaque

Country Status (5)

Country Link
US (1) US7946608B2 (fr)
EP (1) EP1952856B1 (fr)
JP (1) JP2008188429A (fr)
AT (2) AT504800B1 (fr)
DE (1) DE502008002250D1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102016005714A1 (de) * 2016-05-12 2017-11-16 Andreas Ametsbichler Schneegleitbrett und Verfahren zur Herstellung eines Schneegleitbretts

Families Citing this family (5)

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Publication number Priority date Publication date Assignee Title
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FR2941627B1 (fr) 2009-01-30 2012-12-14 Salomon Sas Ski comportant un moyen d'amortissement des vibrations
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CN105025992A (zh) 2013-01-13 2015-11-04 李志夏 雪上滑行装置

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AT504800A1 (de) 2008-08-15
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EP1952856B1 (fr) 2011-01-12
AT504800B1 (de) 2010-05-15
ATE494937T1 (de) 2011-01-15
US20080185818A1 (en) 2008-08-07
US7946608B2 (en) 2011-05-24

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