• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a binding support plate (3) for connecting a ski binding having a front and rear shoe body to a ski (1) and a ski (1) equipped with this binding support plate (3). The binding support plate (3) comprises a first and at least one further plate-like support body (7, 8) for holding the shoe body of the ski binding, wherein at least one support plate parallel to the support plane (9) and transverse support plate (3 ) extending hinge axis (10, 11) is formed. At least one of the hinge parts (10, 11) is formed by a first and a further bolt element, which bolt elements are supported in their mutually facing end sections by an active position corresponding to a common securing element. As a result, risks in terms of operational safety are reduced to a minimum and still provides this binding support plate (3) high performance.
    公开号:AT514895A1
    申请号:T50649/2013
    申请日:2013-10-09
    公开日:2015-04-15
    发明作者:Helmut Dipl Ing Holzer;Josef Dipl Ing Körner
    申请人:Atomic Austria Gmbh;
    IPC主号:
    专利说明:

    The invention relates to a binding support plate for connecting a front and rear shoe body having ski binding with a ski, comprising a first and at least one further plate-like support body for holding the shoe body of the ski binding, wherein at the binding support plate at least one parallel to the support plane and transverse to the longitudinal direction of the binding support plate extending joint axis is formed. The invention also relates to a ski equipped therewith.
    WO 00/32284 A1 describes a generic binding support plate for a ski. In the embodiment according to FIGS. 14 and 15, this binding support plate comprises two support plate parts, which are each provided for load-bearing receiving of the two back bodies of a ski binding. Both support plate parts are each mounted on a Schifest mounted bearing body on the ski. The holder is in each case via a joint connection, which are formed by extending transversely to the Schilängsrichtung, extending over the entire width of the binding support plate extending pin. The two support plate parts are coupled to one another at their mutually facing end sections via a further joint axis, which is likewise formed by a bolt connection extending transversely to the binding support plate. The respective locking pins have at their first end to a collar or flange and are provided at its opposite, second end with an annular recess into which a so-called lock washer can be used. This resilient lock washer is intended to prevent falling out of the socket pin from the mounting holes. The disadvantage here is that the security elements may be omitted unnoticed inappropriate handling or in-use sports equipment, creating a certain security risk for the user ent speaking sports equipment arises. This may be critical, especially for paired sheers that move parallel to each other during use.
    The AT 512 187 A4, which is assigned to the applicant, describes a structurally different type of binding support plate for a ski. In this case, the binding support plate is made in one piece with respect to its support element and screwed firmly in the region of its longitudinal center with the ski. Starting from this so-called central or center mounting essentially cantilevered cantilevers are formed, which receive the front and rear jaw body load-bearing respectively. At least at one free-standing end of the binding support plate, a mechanical coupling device is formed, which comprises a first and a second articulated connection. These joint connections are only of secondary importance with regard to the operational safety of the binding support plate.
    An object of the invention is to eliminate the drawbacks known in the prior art embodiments and to provide a binding support plate or a ski in which risks with regard to operational safety are reduced to a minimum and which binding support plate nevertheless has a high performance Connection with a ski offers. The binding support plate should also be characterized by the lowest possible manufacturing costs and offer easy mounting against a ski.
    This object is achieved with a binding support plate of the type mentioned in that at least one of the joint matters is formed by a first and a further bolt element, which bolt elements are positively coupled in their mutually facing end portions by a common securing element, so that the bolt elements in their scheduled active position are held.
    An advantage resulting from the inventive construction according to claim 1 lies in the fact that the operational reliability or the functional reliability of the marked binding support plate is particularly high after the probability of malfunctioning can be largely excluded. In particular, it is avoided by the specified design with high security that due to improper handling or by relative displacements during the intended use of the sports equipment, the bolt elements fall out and thereby the planned function of the binding support plate would no longer be guaranteed. Characterized in that at least one joint axis are formed by two bolt elements, which bolt elements are held at their proximal ends by a common, effectively central security element in its proper active position, the probability of the occurrence of unwanted deactivations or distances of the fuse element is minimized. After the securing element is arranged centrally, it can not happen, for example, that by loosening the two binding plates of a pair of fishing rods together, a securing element is unintentionally released or removed. In addition, it is significantly impeded by the inventive measures or effectively detained that a user or owner of the sports equipment by improper manipulation of the binding support plate, the safety element consciously or unconsciously removed or spends in a user safety endangering position.
    In addition, the costs for the construction or for the production of the binding support plate according to the invention are kept as low as possible, whereby the best possible cost and benefit ratio is created. But also achievable with the binding plate according to the invention performance meets increased demands, especially with respect to a possible tension-free mounting of the ski binding on a ski, so that the bending stiffness curve of a ski is affected or influenced as little as possible by the ski binding held thereon.
    According to an advantageous development, the bolt elements each have at their mutually facing end portions a groove-shaped constriction into which the common securing element engages in each case a form-fitting manner and builds up an axial movement connection between the bolt elements. As a result, an embodiment is provided which is inexpensive to manufacture and forms a high reliability in terms of the safety function of the bolt elements or the joint axis formed therewith.
    Another advantage is an embodiment according to which the securing element is taken in taking a capture of the active position in a recess of the binding support plate such that a displacement of the securing element in the axial direction of the bolt elements is prevented. This ensures that the securing element is not assigned to one of the side walls of the binding support plate, but is placed in a section within the width of the binding support plate, for example, formed in the middle of the total width of the binding support plate. After the fuse element is primarily intended to prevent unwanted axial displacement of the bolt elements, the forces to be absorbed by the fuse element are relatively low, so that a highly stable or highly reliable backup solution is provided. In particular, it is ensured by the formation of a recess in the binding support plate, that the securing element is reliably protected against unwanted removal or unintentional de-placement.
    According to an advantageous embodiment, it is provided that the securing element can be inserted exclusively from the underside of the binding support plate in the recess, and that the securing element is flush with the assumption of the scheduled active position or positioned back to a support plane of the binding support plate against the top of a ski. This will ensure that a properly positioned fuse element can not be unconsciously removed or moved away from the active position by the user of the corresponding sports equipment. Another particular advantage is that this creates a virtually automatic assembly monitoring, since the binding support plate can only be mounted correctly on a ski if the securing element assumes the proper active position. Otherwise, at least a partial section of the securing element protrudes beyond the receiving or support surface of the binding support plate, whereby the mountability of the binding support plate for the technician personnel is unequivocally recognizable. This ensures that only when the proper active position is taken from the fuse element, a planned mountability of the binding support plate is present. As a result, the operational or product safety of the binding support plate or of the sports device equipped therewith is improved to a particularly high degree.
    According to an expedient embodiment it is provided that at least one inspection opening or window is formed, by which or by which the presence of the securing element or the proper taking of the active position of the securing element starting from the top of the binding support plate is visually verifiable. The advantage here is that it can be checked in a simple manner by a person, whether a fuse element is present or whether the fuse element is positioned in the proper active position. In particular, this can be easily and quickly checked after installation of the binding plate on a ski, whether the binding support plate is properly configured or assembled. As a result, the risk of assembly or. Application errors are minimized. Furthermore, the production and assembly processes can be improved in terms of freedom from defects and production safety, and this allows the achievement of high quality and safety standards with simple, cost-effective measures.
    However, it may also be expedient if the bolt elements have at their end portions facing away from each other a larger compared to the shaft diameter bolt head. As a result, a stable and highly reliable fixing or a stop element for the bolt elements is provided, which prevents axial displacement with high safety as soon as the extended head section or the bolt head rests against the planned stop surface. In addition, an intuitive recognizability of the planned installation position of the bolt elements is ensured.
    It is also advantageous if a pair of bolt elements defines a first hinge axis, which articulates the first and further plate-like support body with each other. As a result, a binding base plate is created which influences as little as possible loading or bending of a ski, on which the binding support plate is mounted, as little as possible. In particular, the bending stiffness characteristic of the ski is less affected in the portion of the binding mounting area despite the bonding support plate mounted thereon. Another advantage is that the binding support plate is assembled into a one-piece, multi-part structural unit, in which the individual components are related. As a result, an assembly process can be facilitated or accelerated.
    According to a practical embodiment, it is provided that a pair of bolt elements defines a second joint axis, via which the further plate-like support body is pivotably connected to a bearing device which can be fixed on the upper side of a ski. As a result, the relative mobility between the binding support plate and the ski body arranged therebelow is designed in such a way that relatively large degrees of freedom are present between the abovementioned parts, as a result of which the stiffening effect of the binding support plate relative to the actual ski body can be kept relatively low. In particular, the greatest possible retention of the bending body inherent bending stiffness distribution or the plangemäßen bending stiffness characteristic is achieved by this pivotable mounting.
    According to an advantageous embodiment, it is provided that the bearing device has a cross-sectionally substantially U-shaped bearing body, the legs abut the other plate-like support body laterally and each have elongated openings, which are penetrated by one of the bolt elements. This makes it possible to provide a highly stable storage for the binding support plate. As a result, the forces introduced by the user on the binding support plate or subsequently on the ski body are transmitted as directly as possible or instantaneously, whereby the control behavior or the reaction speed of the sports equipment is favored. Due to the possibility of a length compensation in the case of bending or bending-related relative displacements between the ski and the binding support plate, a possible stress-free combination between the ski and the binding support plate is also achieved.
    According to one embodiment, it is provided that a base plate of the bearing body has at least two holes, which are provided for receiving helical fastening means for a rigid connection with a ski, wherein congruent to these holes in the further binding support plate at least one access opening is formed by which screw heads the fastening means are accessible with a screwing tool.
    The advantage here is that the binding support plate can be assembled substantially ready for assembly and subsequently relatively complete and can be mounted in a simple manner on a ski. In particular, it is thereby made possible that also the bearing body is connected to the binding support plate, and that then the bearing body can be screwed firmly or rigidly with the ski body using the at least one access opening. In particular, accessibility to the screw heads of these screws is ensured by means of through holes in the binding support plate.
    According to an advantageous embodiment, the elongated apertures are inclined relative to a support plane for the jaw body. As a result, an automatic tilt adjustment of the binding support plate is effectively achieved. In particular, when these inclined openings of the rear binding support plate are assigned and run in the direction of increasing towards the rear, it can be achieved that, in a correspondingly strong or increasing elastic deflection of the ski body, a certain increase of the rear end of the binding support plate occurs. This may be particularly advantageous in dynamic cornering with a ski-like sports equipment, as this is a certain presentation position of the user of the sports equipment is automatically initiated and thus the risk of excessive reserves or falls backwards can be slightly reduced. In particular, the risk of too large back layers of the user can be reduced in conjunction with these inclined breakthroughs.
    A further advantageous embodiment results from the fact that the further plate-like support body is made longer than the first plate-like support body, in particular has a length which is between 150% to 200% of the length of the first plate-like support body. As a result, a virtually unbalanced length distribution of the binding support plate with respect to the first or front and the further or rear support body is formed, whereby an optimized kinematics is created. In particular, this can better meet the bending conditions of a ski body with regard to the off-center positioning of the ski binding in relation to the ski length.
    Also of advantage are measures according to which the first plate-like support body via fixing holes immovably connected to a ski, the further plate-like support body via the first hinge axis with the first plate-like support body is pivotally connected and articulated via the second hinge axis with a ski. As a result, a highly stable or tear-off as possible coupling between the binding support plate and a ski body can be achieved. In addition, the inherent to the ski body bending stiffness characteristic is impaired as little as possible, as soon as the binding support plate is mounted together with the binding bodies on the ski body. In particular, thereby the first or front support body is substantially rigidly coupled to the ski body, while via the further or rear support body and the rear shoe body, the corresponding length compensation movements can be performed.
    The object of the invention is also achieved by a ski according to claim 14. The associated technical effects and advantageous effects can be found in the preceding and the following parts of the description.
    For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
    In each case, in a simplified, exemplary representation:
    Figure 1 is a ski with a mounted thereon, according to the invention binding support plate for the jaw body of a ski binding in a perspective view.
    FIG. 2 shows the binding support plate according to FIG. 1 in an enlarged view on the upper side of a ski; FIG.
    FIG. 3 shows the binding support plate according to FIG. 2 in a view from below; FIG.
    Fig. 4, the binding support plate according to FIGS. 1 to 3 in an exploded view and perspective view.
    By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, wherein the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and these position information in a change in position mutatis mutandis to transfer to the new location. Furthermore, individual features or combinations of features from the different exemplary embodiments shown and described can also represent independent, inventive or inventive solutions. All statements on ranges of values in the description of the present invention should be understood to include any and all sub-ranges thereof, e.g. the indication 1 to 10 should be understood to include all sub-ranges, starting from the lower limit 1 and the upper limit 10, i. all subregions begin with a lower limit of 1 or greater and end at an upper limit of 10 or less, e.g. 1 to 1.7, or 3.2 to 8.1 or 5.5 to 10.
    In Fig. 1, a Schi 1 is shown in exemplary embodiment. Such a ski 1 is typically to be used in pairs and intended for gliding on snow or ice. On the upper side 2 of the ski 1, a binding support plate 3 designed according to the invention is fastened, in particular screwed on. This binding support plate 3 is provided for receiving or load-bearing support of a schematically illustrated ski binding 4. This ski binding typically comprises a first or front jaw body 5 and a further or rear jaw body 6. The two jaw members 5, 6 are provided for releasably coupling with a sports shoe, in particular a ski boot, of a user of the corresponding sports equipment.
    The unit of ski 1, binding support plate 3 and ski binding 4 forms a sports equipment, which is to be used in pairs, with each foot of the user such a sports equipment is provided.
    An embodiment of the binding support plate 3 according to the invention is illustrated in detail in FIGS. This binding support plate 3 comprises a first or front plate-like support body 7 and a further or rear plate-like support body 8. Preferably, the first or front plate-like support body 7 is provided for receiving the front jaw body 5 and the further or rear plate-like support body 8 for receiving or Flalterung the rear jaw body 5, in particular a so-called heel machine, provided. The plate-like support body 7, 8 may be formed of plastic or of a light metal. Of course, a combination of plastic and metal is possible. According to an advantageous embodiment, the plate-like support body 7, 8 guide rails or guide elements, with which the jaw body 5, 6 of the ski binding 4 can be variably positioned in the ski longitudinal direction to correspond to different shoe sizes and variable power distributions or force inputs to the ski body to enable. Alternatively or in combination, it is also possible that at least one plate-like support body 7, 8 is provided for mounting a structurally independent guide rail, by means of which the respective jaw body 5, 6 can be variably positioned or fixed in the longitudinal direction of the binding support plate 3.
    The binding support plate 3 has at least one hinge axis 10, 11 extending parallel to the support plane 9 for the jaw bodies 5, 6 of the binding surface 3 and transversely to the direction of lenght 9 'of the binding support plate 3. By way of example, the first articulation axis 10 connects the first plate-like support body 7 to the further plate-like support body 8 via a joint connection, in particular in the manner of a so-called hinge joint. The further articulated connection 11 is in this case provided on the further or rear plate-like support body 8 and couples or connects the rear plate-like support body 8 with a shelf-mounted or mountable storage device 12. In particular, the articulation axis 11 forms a hinged connection between the further plate-like support body 8 and the storage device 12 is.
    It is essential that at least one of the joint axes 10, 11 is formed by a first and a further bolt element 13, 14. With respect to an associated pair of bolt elements 13, 14, a groove-shaped constriction 17, 18 is preferably formed on the mutually facing end sections 15, 16 of the bolt elements 13, 14, as is shown by way of example in FIG. 4. In particular, the bolt elements 13, 14 'at their mutually facing end portions 15, 16 by a common securing element 19, 19' positively coupled. This form-locking coupling is designed such that a pair of associated bolt elements 13, 14 'by means of the respectively associated securing element 19, 19' in the planned active position - Fig. 2, 3 - is supported. Expediently, the common securing element 19 or 19 'engages in a form-fitting manner in the constrictions 17, 18 for a pair of bolt elements 13, 14. In particular, the securing element 19 or 19 'establishes a movement connection between the axially aligned bolt elements 13, 14. This means that by means of the securing element 19 or 19 ', an axial movement connection or a mechanical coupling between the juxtaposed bolt elements 13, 14 is constructed or can be constructed.
    It is useful if the securing element 19 or 19 'when taking the active position, as shown in FIGS. 2, 3, is received in a recess 20 or 21 of the binding support plate 3 such that an axial displacement of the securing element 19 and 19 'in relation to the longitudinal direction of the pin members 13, 14 is blocked and, consequently, an adjustment of the pin members 13, 14 is prevented in the axial direction.
    According to an expedient measure, it is provided that the securing element 19 or 19 'can be inserted exclusively from the underside 22 of the binding support plate 3 into the recess 20, 21. In relation to the further joint axis 11, an additional recess 23 is formed in the bearing device 12, in particular in its base plate 24. Thus, this securing element 19 'is used starting from the bottom of the bearing device 12 via the recess 23 in the corresponding recess 21 of the further plate-like support body 8 and then secures when taking the proper active position, the two pin members 13, 14 against accidental falling out. It is expedient here if the securing element 19, 19 'is positioned flush or set back to a support plane 24' of the binding support plate 3 or the bearing device 12 with respect to the upper side 2 of a ski 1 when taking up the planned active position.
    Furthermore, it is shown in particular in FIG. 2 that at least one control opening 25 or a viewing window 26 can be formed on or in the binding support plate 3. By means of these at least one control opening 25 or the at least one viewing window 26, the presence of the corresponding securing element 19 or 19 ', or else the proper taking of the active position of the securing element 19 or 19' from the upper side 27 of the binding support plate 3 can be checked visually. In the simplest case, these inspection openings 25 and / or these viewing windows 26 are formed by clearances or openings in the binding support plate 3. These are dimensioned and positioned in such a way that insight into a properly placed securing element 19 or 19 'is ensured. The corresponding exemptions or openings are formed and positioned in such a way that they can be seen starting from the upper side 27 of the binding support plate 3.
    According to a practicable embodiment, the bolt elements 13, 14 at their end portions facing away from each other in comparison to their shank diameter 28 larger bolt head 29, 30. This ensures that the bolt elements 13, 14 receive a defined stop with respect to their insertion direction into the corresponding receiving bores of the binding support plate 3, or receive a defined limit of the insertion movement. In particular, the insertion movement of the bolt elements 13, 14 in the axial direction in the direction of the longitudinal center of the binding support plate 3 is defined by these flange-type bolt heads 29, 30.
    The bearing device 12, which frictionally couples the other, in particular the rear plate-shaped support body 7 with the ski 1, according to an advantageous embodiment comprises a substantially U-shaped bearing body 31. Legs 32, 33 of this bearing body 31 are provided on the other or rear plate-like support body 8 to rest or laterally support this. In particular, the layer body 31 is designed such that its legs 32, 33 rest laterally on the plate-like support body and thus ensure a lateral guidance or stabilization of the plate-like support body 8. The legs 32, 33 of the layer body 31 may each have elongated openings 34, 35, which are penetrated by one of the bolt elements 13, 14. According to a practicable embodiment, these elongate apertures 34, 35 may be inclined with respect to the support plane 9 for the jaw members 5, 6. Especially when the layer body 31 with the inclined openings 34, 35 is assigned to the other or rear support body 8, it is expedient if these openings 34, 35 are rising in the rearward direction. As a result, a certain degree of automatic or dynamic original adjustment or a shift of the center of gravity of the sports practitioner can be achieved to the front.
    As is known per se, a plurality of anchoring bores 36 can be predefined in the plate-like support body 7 and / or 8, which are provided for screwing to a jaw body 5 and / or 6 or with its guide rail
    According to an expedient embodiment, the base plate 24 of the bearing body 31 at least two holes 37, which are provided for receiving schraubenartiqen Befestigungsiqunqsmitteln 38. By means of these screw-like fastening means 38, a rigid connection between the bearing body 31 and the ski 1 can be established. It is expedient here if at least one access opening 39 is formed congruently or substantially coinciding with these bores 37 in the bearing body 31 in the further or rear binding support plate 8. By means of this at least one access opening 39 it is ensured that screw heads of the fastening means 38 are accessible or accessible with a standard screwing tool. In particular, it can thereby be achieved that a complete or almost completely assembled binding support plate 3 can be mounted on a ski 1, after the helical fastening means 38 for the bearing body 31 of the bearing device 12 can be actuated or coupled from the top 27 of the binding support plate 3, although the bearing body 31 is positioned below the binding support plate 3.
    According to an expedient embodiment, the first, in particular the front plate-like support body 7 via a plurality of mounting holes 40, 41 quasi immobile with a ski 1 connectable. It is expedient if at least two mutually distanced in the longitudinal direction fastening holes 40, 41 are executed, wherein at least one pair of mounting holes, beispielsgemäß the front pair of mounting holes 41, is designed as a slot to bending-related tension between the plate-like support body 7 and the ski 1 to hold back. Expediently, the further or rear plate-like support body 8 is connected in an articulated manner via the first articulation axis 10 to the first or front, plate-like support body 7. In addition, the further or rear plate-like support body 8 via the second articulation axis 11 with a ski 1 articulated, in particular with the interposition of the bearing device 12 described above.
    According to an expedient embodiment, the further, in particular the rear plate-like support body 8 is designed comparatively longer than the first, in particular the front plate-like support body 7. It is useful if a length 42 of the further or rear plate-like support body 8 between 150% to 200% of the length 43 of the first or front plate-like
    Supporting body 7 is. Instead of these length ratios shown as an example, it is also conceivable to invert the ratio, that is, to carry out the front or first plate-like support body 8 comparatively longer than the further or rear support body 7.
    According to a practicable embodiment, a respective sliding jaw 44, 45 may be formed between the pin elements 13, 14 and the elongate apertures 34, 35 associated therewith. These sliding jaws 44, 45 are slidably guided along the elongate openings 34, 35 and take, for example via a central bore, the respectively associated bolt element 13, 14 substantially free of play. As a result, an improved force transmission or a lower surface pressure in the openings 34, 35 can be achieved, so that signs of wear are kept behind and a long-term wear or. maintenance-free design is created.
    According to an expedient embodiment, the at least one securing element 19, 19 'is substantially U-shaped or clamp-shaped, as best seen in FIG. 4. On the two legs 46, 47 of this clip or U-shaped securing element 19, 19 'while cuts are formed, which correspond to the constrictions 17, 18 of the pin members 13, 14, in particular can occur in positive interaction. These clip-like securing elements 19, 19 'can be formed from a plastic or a metallic material.
    The exemplary embodiments show possible embodiments of the binding support plate 3 or of the ski 1 equipped therewith, it being noted at this point that the invention is not limited to the specifically illustrated embodiments of the same, but rather various combinations of the individual variants are possible with each other and this variation possibility due to the doctrine of technical flanders by objective invention in the skill of those working in this technical field expert. Thus, all conceivable embodiments which are possible by combinations of individual details of the illustrated and described embodiment variant are also included in the scope of protection.
    For the sake of order, it should finally be pointed out that, for a better understanding of the structure of the binding support plate 3, these or their components have been shown partly unevenly and / or enlarged and / or reduced in size.
    The task underlying the independent inventive solutions can be taken from the description.
    Above all, the individual embodiments shown in FIGS. 1-4 can form the subject of independent solutions according to the invention. The relevant objects and solutions according to the invention can be found in the detailed descriptions of these figures.
    LIST OF REFERENCE NUMERALS 1 ski 36 anchoring bore 2 top 37 bore 3 binding support plate 38 attachment means 4 ski binding 39 access opening 5 shoe body 40 mounting hole 6 jaw body 41 mounting hole 7 support body 42 length 8 support body 43 length 9 support plane 44 sliding jaws 9 'arrow 45 sliding jaws 10 hinge axis 46 leg 11 hinge axis 47 leg 12 Bearing device 13 Bolt element 14 Bolt element 15 End section 16 End section 17 Constriction 18 Constriction 19, 19 'Securing element 20 Recess 21 Recess 22 Bottom surface 23 Recess 24 Base plate 24' Supporting plane 25 Inspection opening 26 Viewing window 27 Top 28 Shank diameter 29 Bolt head 30 Bolt head 31 Bearing body 32 Leg 33 Leg 34 Breakthrough 35 Breakthrough
    权利要求:
    Claims (14)
    [1]
    1. Binding support plate (3) for connecting a front and rear jaw body (5, 6) having ski binding (4) with a ski (1), comprising a first and at least one further plate-like support body (7, 8) for holding the jaw body (5, 6) of the ski binding (4), wherein on the binding support plate (3) at least one parallel to the support plane (9) and transversely to the longitudinal direction (9 ') of the binding support plate (3) extending joint axis (10, 11) is formed, characterized characterized in that at least one of the joint pieces (10, 11) is formed by a first and a further bolt element (13, 14), which bolt elements (13, 14) in their mutually facing end portions (15, 16) by a common securing element (19 19 ') are positively coupled, so that the bolt elements (13, 14) are held in their planned active position.
    [2]
    2. Binding support plate according to claim 1, characterized in that the bolt elements (13, 14) at their mutually facing end portions (15, 16) each have a groove-shaped constriction (17, 18), in which the common securing element (19; 19 ') each positively engages and an axial movement connection between the pin members (13, 14) builds.
    [3]
    3. Binding support plate according to claim 1 or 2, characterized in that the securing element (19, 19 ') when taking the active position in a recess (20, 21) of the binding support plate (3) is received such that a displacement of the securing element (19; 19 ') in the axial direction of the bolt elements (13, 14) is prevented.
    [4]
    4. Binding support plate according to claim 3, characterized in that the securing element (19, 19 ') exclusively starting from the underside (22) of the binding support plate (3) in the recess (20, 21) can be inserted, and that the securing element (19; 19 ') when taking the scheduled Aktivposi tion flush or set back to a support plane (24') of the binding support plate (3) opposite the top (2) of a ski (1) is positioned.
    [5]
    5. Binding support plate according to one of the preceding claims, characterized in that at least one control opening (25) or a viewing window (26) is formed, through which or by which the presence of the securing element (19; 19 ') or the proper taking of the active position of the securing element (19, 19 ') can be checked visually starting from the upper side (27) of the binding support plate (3).
    [6]
    6. Binding support plate according to one of the preceding claims, characterized in that the bolt elements (13, 14) have at their opposite end portions a compared to the shank diameter (28) larger bolt head (29, 30).
    [7]
    7. Binding support plate according to one of the preceding claims, characterized in that a pair of bolt elements (13, 14) defines a first hinge axis (10) which articulates the first and further plate-like support body (7, 8) with each other.
    [8]
    8. Binding support plate according to one of the preceding claims, characterized in that a pair of bolt elements (13, 14) defines a second joint axis (11), via which the further plate-like support body (8) with a on the top (2) of a ski ( 1) fixable bearing device (12) is pivotally connected.
    [9]
    9. Binding support plate according to claim 8, characterized in that the bearing device (12) has a cross-sectionally substantially U-shaped bearing body (31) whose legs (32, 33) laterally rest on the further plate-like support body (8) and each elongated openings (34, 35) which are penetrated by in each case one of the bolt elements (13, 14).
    [10]
    10. Binding support plate according to claim 9, characterized in that a base plate (24) of the bearing body (31) has at least two holes (37) which are provided for receiving screw-like fastening means (38) for a rigid connection with a ski (1) , wherein congruent to these holes (37) in the further binding support plate (8) at least one access opening (39) is formed through which screw heads of the fastening means (38) are accessible with a screwing tool.
    [11]
    11. Binding support plate according to claim 9, characterized in that the elongated openings (34, 35) with respect to the support plane (9) for the jaw body (5, 6) inclined.
    [12]
    12. Binding support plate according to one of the preceding claims, characterized in that the further plate-like support body (8) is made longer than the first plate-like support body (7), in particular a length (42) which between 150% to 200% of the length (43) of the first plate-like support body (7).
    [13]
    13. Binding support plate according to one of the preceding claims, characterized in that the first plate-like support body (7) via fastening bores (40, 41) immovably with a ski (1) is connectable, wherein the further plate-like support body (8) via the first joint axis (10) is pivotally connected to the first plate-like support body (7) and via the second articulation axis (11) with a ski (1) is articulated connectable.
    [14]
    14 ski (1) with a binding support plate (3) for load-bearing support of a front and rear shoe body (5, 6) having ski binding (4) on the ski (1), comprising a first and at least one further plate-like support body (7, 8) for holding the jaw members (5, 6) of the ski binding (4), wherein on the binding support plate (3) at least one parallel to the support plane (9) and transversely to the longitudinal direction (9 ') of the binding support plate (3) extending joint axis (10, 11), characterized in that the binding support plate (3) is formed according to one or more of the preceding claims.
    类似技术:
    公开号 | 公开日 | 专利标题
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    同族专利:
    公开号 | 公开日
    AT514895B1|2019-12-15|
    EP2859924A1|2015-04-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    WO2000032284A1|1998-12-02|2000-06-08|Andreas Hangl|Device for connecting a snow glider to the boot of a person using a snow glider|
    AT5614U1|2000-06-28|2002-09-25|Salomon Sa|TRANSITION DEVICE BETWEEN AN ALPINSKI AND SHOE HOLDING ELEMENTS ON THE SKI|
    EP1243294A1|2001-03-20|2002-09-25|Skis Rossignol S.A.|Interface for a ski|
    AT6724U1|2001-10-31|2004-03-25|Salomon Sa|SUPPORT PLATE FOR AT LEAST ONE HOLDING ELEMENT FOR A SHOE ON A SLIDING BOARD|
    AT408950B|1998-01-30|2002-04-25|Atomic Austria Gmbh|SKI, ESPECIALLY ALPINE|
    FR2775437B1|1998-02-27|2000-05-19|Salomon Sa|INTERFACE DEVICE BETWEEN A SKI AND RETAINING ELEMENTS OF A SHOE ON THE SKI|
    AT512187B1|2012-03-19|2013-06-15|Atomic Austria Gmbh|Ski with connecting device for a ski binding|NO2715057T3|2014-04-02|2018-02-10|
    法律状态:
    2021-06-15| MM01| Lapse because of not paying annual fees|Effective date: 20201009 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50649/2013A|AT514895B1|2013-10-09|2013-10-09|Binding support plate for connecting a ski binding to a ski and also equipped ski|ATA50649/2013A| AT514895B1|2013-10-09|2013-10-09|Binding support plate for connecting a ski binding to a ski and also equipped ski|
    EP20140187652| EP2859924A1|2013-10-09|2014-10-03|Binding support plate for connecting a ski binding with a ski and ski equipped with the same|
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