奥地利专利AT512187A4 Ski with connecting device for a ski binding

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专利摘要:
The invention relates to a ski (1) with a connecting device (3) for connecting a ski binding to the ski (1). The connecting device (3) comprises a plate-like support body (4) which has in its longitudinal central portion (7) a fastening zone (8) for rigid connection with the ski (1). At least the front end section (5) of the supporting body (4) forms a free-standing bending support (10) relative to the fastening zone (8) and the ski (1). The free-standing bending beam (10) is formed from plastic and coupled via a coupling device (18) with the ski (1). This coupling device (18) comprises a connecting arm which has in its first end portion a first articulated connection with respect to the bending beam (10) and in its second end portion a second articulated joint with respect to the ski (1). The first or second articulated connection (25, 26) is formed on a sliding guide which is slidingly adjustable in the longitudinal direction of the ski, and a limiting element (34) is designed to suppress, limit or inhibit lifting movements of the bending support (10) relative to the ski (1).
公开号:AT512187A4
申请号:T334/2012
申请日:2012-03-19
公开日:2013-06-15
发明作者:Helmut Dipl Ing Holzer；Georg Klausner；Josef Dipl Ing Koerner
申请人:Atomic Austria Gmbh；
IPC主号:

专利说明:

1 17:19:29 19-03-2012 5/31 25 * * »* th
1
The invention relates to a ski with a connecting device for connecting a front and rear shoe body having ski binding with the ski, as indicated in claim 1.
From the prior art it is known to couple the two jaw members of a ski binding, which comprises a toe and a heel jaw distanced therefrom, with the ski body with the interposition of a binding support plate or a so-called binding plate. There are essentially four basic principles with regard to the coupling of the binding support plate with the ski. In particular, the load or force-transmitting coupling between the binding support plate and the ski body can be carried out starting from the central portion of the binding support plate or starting from the front and / or rear end of the binding support plate, as for example in DE 21 34 610 A1 and DE 21 35 450 A1 is disclosed.
In particular, it is known to support the opposite, distal ends or end portions of the binding support plate load-bearing on the ski and thereby provide coupling mechanisms by which the Durchoder bending of the ski body is influenced as little as possible to achieve a harmonic bending line and the ski below the binding support plate to stiffen as little as possible despite the attachment of the ski binding or the binding support plate. For this purpose, combinations of Geienksverbindungen or joint and guide connections are provided, which are formed at the opposite end portions of the binding support plate, as for example the documents US 5,129,668 A, DE 39 32 438 A1, EP 1 051 225 A1, or CH 681 205 A5 can be seen. depending on the stability or N2011 / 36800
No 'RQflO iQ / nn / 5m 17-91 17:20:07 19 * 03-2012 6/31 25
Flexural rigidity of the binding support plate can be provided in the sections between the distal support or joint connections to the ski also elastomeric deposits, which are arranged between the binding support plate and the Schioberseite and thereby fulfill a damping function or hold a resilient bending of highly stressed Sindungstragpfatte hintan.
In addition to the aforementioned binding support plates with end-face arranged Schikopplungsmechanismen, such as joints and linear guides, it is also known to connect a relatively rigid binding support plate in its middle or Zentraf section articulated to the ski and at least one distal end, in particular the rear support plate end To connect via a coupling rod with the ski, so that a change in the inclination of the footprint of the support body relative to the ski body is effected as a function of the elastic bending or bending of the Schlkörpers, as can be found in EP 0780142 B1. According to another embodiment, it has been proposed to rigidly couple the rear half of the binding support plate to the ski and to carry out the front half of the binding support plate as a free-standing bending beam, as disclosed in FIGS. 7, 8 of the cited document. However, the achievable with these constructions performance is only partially satisfactory.
According to EP 0 780 143 B1, it is provided to connect the front end of the binding support plate firmly and in a height-stable manner to the ski and to mount the rear end of the binding support plate so as to be height-adjustable with respect to the ski side. In the longitudinal middle section of the binding support plate, a rigid support element is provided, which ensures a fixed minimum height between the binding support plate and the Schioberseite. With this construction, the rigidity of the ski is to be influenced under the action of a pressure force exerted by the user.
In WO 2008/032349 A1, a binding support plate is specified, which has a more uniform or far-reaching pressure distribution of the ski body compared to 19/03/2012 17:22
No .: R982 P.006 / 031
25 17:20:49 19-03-2012 7/31 t In the process, a bond support plate that is as rigid as possible is provided, which is preferably made of metal or of a carbon-fiber composite material (CFRP). This highly rigid binding support plate is connected in its middle section either via a hinge connection or via a rigid connection with the ski body. Veriängerungsarme are respectively provided at the opposite ends of the support plate, which extend in the direction of the ski tip or in the direction towards the ski end and each coupled via a joint connection and a combined B rotational and translational connection the binding support plate with the ski. By extending to the front and rear extension arms a wider force or Drudeverteilung starting from the binding support plate on the Schlkörper be grazed. The disadvantage here is that a highly rigid support plate made of metal or CFRP is required in order to be able to stand firm enough stable position during the use of the ski force. Particularly in the case of elastic bends or bends of the binding support plate supported centrally or centrally on the bumper, there are significant performance losses with regard to controllability or with regard to the most direct or instantaneous maneuverability of the breech body.
The present invention has for its object to provide a ski with a connection device for the ski binding, wherein the ski body as uninhibited or free, elastic deformation should be made possible below the connec tion device, and wherein the performance in terms of maneuverability or possible instantaneous initiation of control forces from the user should be as high as possible on the body.
This object of the invention is achieved by a ski with a connecting device according to claim 1. An advantage of the design according to the invention is that thereby a ski is created with the highest possible performance, especially in terms of maneuverability, which also can meet high economic and aesthetic demands. Among other things, the free-form bending beam formed or molded of plastic is as harmonious as possible in its overall appearance in terms of its visual appearance. N2011 / 36800 P.007 / 031 1n / nQ / onio 17-99 25 17:21:33 19-03-2012 8 / 31 i: t 4 integrable. In addition, the corresponding connecting device is relatively inexpensive to produce, after a series production is possible in conjunction with injection-molded plastic parts which compared to metallic components or CFRP parts that would require elaborate processing or manufacturing processes, are relatively inexpensive to produce. In particular, the stated construction is comparatively rational to manufacture and attractive in terms of cost and visual appearance to a wide circle of potential users. A significant advantage of the embodiment according to the invention lies in the fact that the ski is stiffened as little as possible by the centrally or centrally mounted support body for the shoe body of the ski binding, in particular a relatively free, harmonic bending characteristic of the ski body is ensured against the attached Verblndungsvorrichtung This relatively free or unimpeded elastic Durch- or bending of the ski body is not affected by the specified coupling device.
A particular advantage of this coupling device is that it significantly increases the torsional rigidity of the cantilevered bending beam of the connecting device. In particular, the relatively high scoring action of the body in the area of the binding mounting zone is exploited in order to significantly increase the torsional rigidity of the free-standing plastic bending support. As a result, the user initiated on the free-carrying bending beam control or. Torsionskräfte taken reliably without an adverse distortion of the bending beam occurs about its longitudinal axis Consequently, the most direct and without delay and exact controllability of the ski is guaranteed. While the coupling device so largely prevents twisting of the plate-like support body and thereby raises the torsional stiffness relative movements between the free-standing bending beam and the ski body in the vertical direction to the Schioberseite and also allowed in Schilängsrichtung. An advantage of this coupling device is also that a precise and long-term wear-free, mechanical coupling is ensured by the arrangement of one of the joint connections of the connecting arm directly on a guide carriage. In addition, such a leadership N2011 / 38600
No. R9R P.008 / 031 25 17:22:18 19-03-2012 9/31 Ί ι 5 sliders can withstand relatively high torsional or torsional forces without the occurrence of wear and tear and tolerances in the longer term.
A particular advantage of the embodiment of the invention is also that the bending beam formed from plastic is limited in relation to lifting or distancing movements relative to the top of the ski. In particular, the free-standing bending beam of the connecting device is limited by the limiting element with respect to distancing tendencies of the Schioberseite. Thus, while the bending beam and the ski body can approach each other in the course of the usual use or bending of the ski, a maximum distance to remove between said components is limited. In addition, the free-standing bending beam can thereby reliably withstand the relatively high tearing forces against the bending beam that occur in the user's backward or forward tumbles, without causing states or manual actions which would impair the safety deflection values of a safety binding. Accordingly, in addition to the requirements for high performance, high cost-effectiveness and high aesthetic demands or design possibilities, the specified device also fulfills high safety requirements in combination with restrained or supported ski bindings.
Also advantageous are the measures according to claim 2, since thereby the strength or bending stiffness of the free-carrying bending beam of Veibindungsvomch-tion can be further increased, while still allowing the most economical production is possible in particular an automated and thus relatively inexpensive mass production can be built the corresponding design meets both high economic and performance requirements.
An advantageous embodiment is also specified in claim 3. In particular, this provides a multiple, technical functionality of the bearing body, whereby the number of parts is reduced and the Gesamtkoeten can be reduced to provide a corresponding ski. In addition, this forms the cross-sectionally substantially C-shaped bearing body a kind of
N2011 / 3S80D
No - RQR P.009 / 031 25 17:23:02 19-03-2012 10/31
I 6
Cladding * · or spoiler element for the front longitudinal end of the support body, which cladding or spoiler element can hide or videide the mechanical or kinematically relevant components of the coupling device. As a result, aesthetic demands, but also requirements in terms of functional reliability and robustness of the coupling device in a simple manner taken into account.
Also advantageous are the measures according to claim 4, since a robust or long-term planned functioning coupling device is created, which also high force, especially strong torsion or. Torsional forces in the course of the use of the ski easily withstand.
Also advantageous are the measures according to claim 5, characterized in that the free-standing bending beam of the support body is elastically yielding supported and thus the bending stiffness can be selectively influenced or increased to the desired extent. Nevertheless, it is possible that the body can perform the corresponding deflection or elastic deformation in the region below the binding support plate as freely as possible, so that the most harmonic or uniformly pronounced bending characteristic is achieved, which favors the achievable with the ski performance.
But there are also the measures according to claim 6 is advantageous because it creates a nearly punctual support or support surface, which on the one hand supports the cantilevered bending beam relative to the Schioberseite and thus counteracts a drop of the same On the other hand, this is a possible unhindered elastic deformation favored or maintained in the section below the ffeikragenden bending beam of the ski body.
Also advantageous are the measures according to claim 7, as this achieves the achievable with this ski performance is relatively high particular performance-oriented aspects is taken into account better, since there * ski body can build a relatively uniform or harmonious bending line. As a result, optimal grip against the ground can be built up and N2011 / 36600 P.010 / 031 iQ / rm Ni 17 5 17:23:44 19-03-2012 11/31 25:: ι «ι
ein 7 a well controllable cornering behavior can be achieved. This is achieved, inter alia, by the rear end of the supporting body, which is held free in relation to the ski in the longitudinal direction of the ski,
Furthermore, the measures according to claim 8 are advantageous, since a highly stable and yet lightweight connection of the rear end portion of the Tragkörpere is created with the ski Nevertheless, a tension-free as possible, in the longitudinal direction free-sliding coupling between said elements is guaranteed
In the measures according to claim 9 it is advantageous that the supporting body or the free-standing bending beam of the connecting device fulfills a multiple functionality, so that additional components are unnecessary and thus the production costs can be kept as low as possible. In addition, thereby the overall weight of the corresponding embodiment can be kept relatively low. Nevertheless, a ski binding in a simple manner to the respective shoe sizes can be customized by the appropriate design. In addition, a free-sliding holder of at least one jaw body of the ski binding against the support body can be efficiently implemented.
Of advantage is also a dimensioning according to claim 10, as this is a certain damping or AbfederungsHinktion created by the connecting device or its supporting body. In particular, in the ferry mode acting on the ski shocks in a damped form are transmitted to the user, whereby the Komkomkomfort can be increased.
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 highly simplified, schematic representation:
Figure 1 is a ski with attached Verbindungsvomchtung for a ski binding in a perspective view obliquely from above. 19/03/2012 17:25
No .: R982 P.011 / 031 17:24:23 19-03-2012 12/31 25: ι
• · ♦ * «· I 1 8
FIG. 2 shows the connecting device on the ski according to FIG. 1 in an enlarged view; FIG.
Fig. 3a, the connecting device of Figure 2 cut in its rear end portion in Schilängsrichtung.
FIG. 3b the connecting device according to FIG. 2 cut in its longitudinal direction in the direction of the ski;
4 shows the front end portion of the connecting device in a perspective view of the underside.
5 shows a vertical longitudinal section through the front end portion of the connecting device according to FIG. 4.
By way of introduction, it should be noted that in the embodiments described differently, the same parts are given the same reference numerals or the same part designations, the disclosures contained throughout the description can be applied mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information selected in the order, e.g. 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 Ausfüfmmgsbeispfelen shown and described may represent for themselves, 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 sub-areas 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. N2011 / 36800 p rn / N3i
1Q / n3 / i > ni 17PR 25 17:25:01 19-03-2012 13/31 :: i. · · * * * * * 4 4 *
0 * • * * · 1 t 9
An exemplary embodiment of a ski 1 according to the invention is illustrated in FIGS. 1, 2 with a connecting device 3 arranged on its upper side 2 for a ski binding not shown. Such a ski binding comprises a front jaw body, not shown, for releasable coupling with the toe portion of a sports shoe and a distance therefrom, the rear shoe body for releasably releasable coupling with the heel portion of the sports shoe of a user. In particular, any, known from the prior art ski binding can be attached to the connecting device 3, in particular formschiüssig pushed and fixed to the respective desired position of the retainer. As a result, the individual shoe sizes of the respective user can be met. This ski binding preferably fulfills the function of a so-called safety ski binding which releases the sports shoe of the user when predefined trigger values or force threshold values occur
The connecting device 3 on the upper side 2 of the ski 1 in this case comprises a substantially plate-like or rail-like support body 4 for the two jaw members of the ski binding. In particular, the support body 4 is formed in its front or schispitzenseitigen end portion 5 for holding the front jaw body and in its rear end portion 6 for holding the rear jaw body. The plate-like Tregkörper 4 of the connecting device 3 has a length between 40 to 70 cm, preferably of about 55 cm. In contrast, the length of the ski 1 is a multiple of the length of the support body 4, typically between 140 cm to 190 cm.
The Verbindungsvomchtung 3 between the ski binding and the ski 1 is designed as a so-called central or mittbefestige binding plate. This means that the support body 4 of the Verbindungsvomchtung 3 in its longitudinal central portion 7 has a fastening zone 8 for rigid connection with dom Schi 1. The fastening zone 8 has a longitudinal extent of up to 10 cm in relation to the longitudinal direction of the ski. In the illustrated embodiment, the support body 4 via a plurality of fastening means 9, in particular screws, rigidly or fixedly screwed to the ski 1 A paired arrangement N2011 / 36600 ia / nq / 9m9 17-97 25 17:25:45 19-03- 2012 14/31
10 of at least two screws, beispielsgemäß of four screws, it is expedient. Typically this fastening zone 8 lies approximately in the longitudinal center of the supporting body 4 or the connecting device 3, as can be seen in particular from FIG. In this attachment zone 8 in the region of the longitudinal center section 7 of the support body 4, a possibly rigid or in relation to all spatial directions unyielding coupling, in particular screw, between the support body 4 and the ski 1 is constructed.
At least the front end section 5 of the Tragkörpeis 4 forms with respect to the central attachment zone 8 of the support body 4 from a free-carrying bending beam 10, as best seen in Fig. 3b is apparent in particular the support body 4, starting from its central attachment zone 8, in which he rests directly on the top 2 of the ski 1, at least in the direction of the front end portion 5 cantilevered, that is spaced from the top 2 of the ski 1. According to the dargesteltten embodiment, only the front end portion 5 of the support body 4 is carried free-standing or static self-supporting and thus not supported at least in its foremost end portion on the top 2 of the ski 1 from. The support body 4 is therefore at least in its front portion, in particular at least in the front third of its longitudinal extension, a cantilevered bending beam 10. Dia one-sided clamping or mounting is based on the central or iängsmittigen mounting zone 8. The front, free-standing end portion 5 of the support body 4 may be between 20% to 50%, preferably between 30% to 40% of the length of the support body 4.
Consequently, the underside 11 of the support body 4 is positioned at least in the front end portion 5 of the support body 4 in a vertical distance 12 to the top 2 of the ski 1. By this distance 12 results in a gap-like space 13 between the bottom 11 of the support body 4 and the top 2 of the ski 1. This space 13 is preferably formed by a formed on the Schioberseite, trough-like surface recess 14. This means that a thickness 15 of the ski 1 in its longitudinal section with the greatest distance 12 to the underside of the supporting body 4 is comparatively smaller than a thickness 16 of the ski 1 in 19/03/2012 17:27
No .: R982 P.014 / 031 25 17:26:29 19-03-2012 15/31 «• • * 11 inside the fastening zone 8 or in the vicinity of the fastening means 8. This allows the vertical height of the free space 13, In particular, the distance 12, be kept sufficiently large to ensure a sufficient relative movement between the free-standing bending beam 10 and the Schioberseite. In addition, the supporting body 4 can thus remain approximately constant over long sections with respect to its thickness progression in the longitudinal direction and can thus be made sufficiently stable. Of course, it is also possible, at least in the direction of its front LänosenH * m toward step-like or continuously tapered ¬ to achieve a sufficient vertical distance 12 in the region of the front longitudinal end 19, softer a Reiatiwerstellung, in particular a load-related approach between the front end portion 5 and the Schioberseite allows. Such an approach takes place in the course of the load or pressurization of the support body 4 during use of ski 1. These typical loads result in an elastic deformation of the support body 4, in particular of its protruding from the central attachment zone 8, front and / or rear end portion 5.6.
Preferably, at least the front end portion 5 of the support body 4 is at least in sections as a free-standing Biegetrlger 10 with respect to the top 2 of the ski 1 executed. Alternatively or in combination, it is also possible to perform the rear end portion 8 of the support body 4 as a free-standing bending beam, that is, at least within sub-sections with respect to the top 2 of the ski 1 to distance, so a gap-like free space, in particular a vertical movement margin between the rear end portion 6 and the Schioberseite is given.
Due to the distance 12, a reduction in the distance 12 is possible in the forces or loads occurring in use in the vertical direction on the upper side 17 of the front end portion 5 in the use. In particular, the front end section 5 designed as a free-standing bending beam 10 can elastically deflected in the direction of the ski side and thereby impact loads, N2011 / 36800 IQ / m / Onv 17-9R No HQR9 p niF; / mi 17:27:12 19-03-2012 16/31 25 12 as they may occur during the use of ski 1, in particular.
This resilient and resilient, cantilever executed bending beam 10 of the support body 4 is formed from plastic, in particular molded from plastic. Thereby, a maximum travel of up to 10 mm, preferably of about 5 mm between the bottom 11 and the Schioberseite possible without the elasticity of the bending beam 10 is permanently impaired or the yield strength of the plastic is exceeded. According to an advantageous embodiment, it is provided that the bending beam 10 or the predominant part of the rail or plate-like support body 4 is formed of glass fiber reinforced, injection-molded plastic According to an expedient embodiment is provided, the support body 4, in particular the at least one free-carrying Biegeträg «' 10 of the connecting device 3 made of glass fiber reinforced polyamide, in particular of PAS with a glass fiber content of up to 45% to form. It is expedient to use as plastic for the support body 4, in particular for the at least one free-standing bending beam 10, molded PA6-GF30 or PA6-GF40 in order to achieve a favorable strength but also elasticity of the supporting body 4 in the region of the free-standing bending beam 10. It is expedient if the plastic used has an E-modulus between 6,000 and 14,000 MPa, preferably about 10,000 MPa.
The elasticity or flexural rigidity of the cantilevered bending beam 10 is expediently dimensioned such that with a force between 200 N and 350 N on the front longitudinal end 19 of the support body 4 and on the schispitzenseitige end of the front end portion 5, wherein the force perpendicular to the top 17 is aligned, a relative position between 1 mm and 3 mm, in particular of about 2 mm, occurs in the direction of the Schioberseite. The elasticity or bending stiffness of the cantilevered bending beam 10 of the support body 4 can also be dimensioned according to a favorable design such that at a force admission according to the above manner between 500 N and 800 N, a relative position between 3 N2011 / 36800 19/03/2012 17:29 No .: R982 P.016 / 031 17:27:55 19-03-2012 17/31 25
13 mm and 5 mm, in particular of about 4 mm, towards the Schioberseite occurs. The corresponding elasticity or flexural strength values can be provided by the support body 4 or its free-standing bending support 10, preferably including the support action of an elastically yielding support body 36 explained below.
The connecting device 3 further comprises at least one mechanical coupling device 18 at at least one longitudinal end, in particular at the front longitudinal end 1Θ of the support body 4. This mechanical coupling device 18 is designed such that a load-related change of the distance 12 between the exposed bending beam 10 and the Schioberseite allows or is permitted, however, a twisting of the free-carrying bending beam 10 about its longitudinal axis or about the longitudinal axis Schilängsachse is prevented as possible. In particular, the coupling device 18 serves to inhibit or prevent elastic distortions of the free-carrying bending support 10 or of the front end section 5 of the support body 4 as a result of acting torsional forces. Such a coupling device 18 is preferably provided at each fäikragend executed end of the support body 4. This means that, although the rear end portion 6 of the support body 4 is executed free-running, also the rear longitudinal end 20 is associated with such a coupling device. In the illustrated embodiment, the rear end portion 6 of the support body 4 with its bottom 11 is substantially gap-free on the Schioberseite so that no free-standing end section prevails, as can be seen from FIG. 3a. Accordingly, according to the embodiment shown in the rear end portion 6 of the support body 4 no mechanical coupling device is provided with respect to the ski body.
In FIGS. 4, 5 the mechanical coupling device 18 formed on at least one longitudinal end 19, 20 of the supporting body 4 is shown enlarged.
This coupling device 18 comprises a longitudinal section, in particular with respect to a vertical section running parallel to the ski longitudinal direction, a substantially C-shaped bearing body 21. A lower leg 22 of this hm 19/03/2012 17:30
No .: R982 P.017 / 031 17:28:38 19-03-2012 18/31 25 14
Substantial C-shaped bearing body 21 forms a bearing point 23 for a mechanical Verbindungsann 24 to the support body 4, in particular to the front longitudinal end 19 of. In particular, the coupling device 18 comprises a connecting arm 24 which has in its first end portion a first articulated connection 25 with respect to the cantilevered bending beam 10, and in its second end portion a second articulated connection 26 with respect to the ski 1. The two Geienksverbindungen 25,26 form transverse to the Schilängsrichtung and substantially parallel to the tread 27 of the Schi 1 - Fig. 3a, b - extending pivot axes 28,29. Preferably, these pivot axes 28,29 are formed by bolt connections. Alternatively, it is also possible to form at least one articulated connection 25, 26 or at least one pivot axis 28, 29 through a so-called material or film hinge, in particular a material taper in the transition section between connecting arm 24 and bearing body 21 or between connecting arm 24 and bending beam 10 provide.
The bearing body 21 is rigidly connected to the ski 1, in particular fixed immovably on at least one screw-like fastener 30 on the Schioberseite. The leg 22 of the C-shaped bearing body 21 forms a subcomponent of the second articulated joint 26, as best shown in FIG. 5. The first or upper articulated connection 25 of the connecting arm 24 is preferably formed on a guide carriage 31, which in FIG Schilängerichtung is slidably or translatorily adjustable is preferably this guide carriage 31 on the support body 4, in particular at the front longitudinal end 19 executed, as shown in FIGS. 4.5 can be seen. It is useful if this guide carriage 31 has a sliding plate 32 which is slidably guided in a guide groove 33 on the cantilever bending beam 10 with respect to the Schilängsrichtung. This slide plate 32 of the guide carriage 31 is coupled via the first articulated connection 25 with the connecting arm 24 or articulated. By this mechanical coupling comprising the connecting arm 24 with the two articulated joints 25,26 and the guide carriage 31 slidable in the longitudinal direction are Dlstanzierungs- and approaching movements between the bending beam 10 and the Schioberseite N2011 / 36800 -lo / no / om 17-1 / 1
No . 'R9B2 P. 018/031 17:29:23 19-03-2012 19/31 i) * * * * * * * * * * * * * 15 permitted, twisting or lateral deviating movements of the free-standing bending beam 10 are prevented, however, or inhibited. It is expedient here to guide the gite plate 32 in the guide groove 33 in such a way that the slide plate 32 is mounted free of play or approximately free of play transversely to the longitudinal axis of the carrier body 4.
Instead of the assignment of the guide carriage 31 to the support body 4 and to the bending beam 10, it is also possible to assign a corresponding, translational longitudinal compensation the Lagerköiper 21, in particular to lead the Fqhrungs slide on the bearing body 21 and voizusehen a purely rotational articulated joint 25 directly on the bending beam 10 ,
It is particularly expedient to form at least one delimiting element 34, which is designed to suppress or limit stress-related lift-off tendencies or lift-off movements of the bending support 10 relative to the ski 1. In particular, at least one delimiting element 34 is provided, which limits the maximum distance 12 between the ski Bottom 11 of the Biegetrfigers 10 and the Schioberseite effected. In functional terms, this limiting element 34 avoids a stress-related elastic bending or distancing of the front longitudinal end 19 over a substantially rectilinear extent of the front end portion 5 of time. Thus, a load-related, arcuate bending or raising of the cantilevered beam 10 is suppressed limited or limited to a sufficient extent. Excessive stress or fracture-endangering loads of the free-standing bending beam 10 are thereby avoided. In addition, relative states can be suppressed or avoided, which would unduly alter the security function of a security binding arranged thereon. This limiting element 34 is of importance, inter alia, in connection with the tearing forces on the front, cantilevered bending carrier 10 which occur in the event of backward falls of the user.
It is particularly expedient if the bearing body 21, which is essentially C-shaped in relation to a longitudinal longitudinal section running parallel to the longitudinal direction of the ski, has the at least one delimiting element 17 with its upper limb 35
No: R9S2 P.019 / 031 25 25 20/31 17:30:06 19-03-2012 16 ment 34 trains. In particular, the leg 35 is a kind of stopper element which prevents a lifting movement of the bending beam 10 relative to the Schioberseite, inhibits, or limited from a predetermined extent, as best seen in the illustration in Fig. 5 can be seen.
According to an expedient embodiment is provided to support the resilient, firejkragenden bending beam 10 resiliently yielding. In this case, at least one elastically resilient supporting body 36 is provided between the top 2 of the ski 1 and the bottom 11 of the bending beam 10. This elastically yielding support body 36 supports the free-standing bending beam 10 with respect to the ski side elastically yielding. According to an advantageous embodiment, the support body 36 is formed by a eiastomeres foam element 37 this StQtzkörper 36 exerts on the bottom 11 of the bending beam 10, a supporting or opposing force, which opposes an increased load resistance reduction of the distance 12.
According to an advantageous embodiment, it is provided that the elastically yielding support body 36 has a support length 38 of less than 5 cm relative to the upper side 2 of the ski 1 and / or a support length 39 of less than 5 cm relative to the bending beam As best seen in FIG. 4, it may be desirable to provide a pair of elastically resilient support bodies 36.
As best seen in a synopsis of Figs. 2 and 4, the front and / or rear end portion 5,6 of the support body 4 may have a substantially hat rail or C-shaped cross-sectional contour. As a result, the front and / or the rear end section 5, 6 of the support body 4 forms a longitudinal guide 40, 41 for the front and / or rear jaw body of a ski binding. In particular, this makes it possible to use the support body 4 for direct reception or for the touch-holding attachment of the jaw body of a ski binding. Via these longitudinal guides 40,41 is then in a simple way N2011 / 36800 in / niiomo 17- ^ 9 Nr R9R P.020 / 031 25 17: 30.48 19-03-2012 21/31
17 se an individual adjustment of the distance between the jaw bodies, that is an adaptation to the respective shoe size, and / or allows an individual change of the shoe contact center with respect to the Schilängsrichtung in a simple manner.
As best seen in Fig. 3a can be seen, the rear end portion 6 of the supporting body 4 with its underside 11 almost over the entire surface or be supported over the entire longitudinal extent on the Schioberseite. In the embodiment according to FIG. 3 a, the rear end section 6 of the support body 4 thus does not constitute a free-standing bending support. Nevertheless, this rear end section 6 is fastened in such a way that relative movements between the rear end section 6 and the ski 1 are permitted as a result of deflections or bends of the ski body become. In particular, the rear end portion 6 of the support body 4 is supported by a Betestigungsvorrichtung 42 against the Schioberseite load-supporting, supported in the longitudinal direction but sliding and secured by means of the fastening device 42 against lifting from the Schioberseite. Conveniently, a stirrup is clamped or clamp-like fastening element 43 is provided, soft surrounds the support body 4 at its rear end portion 6 or penetrated and is rigidly bolted to the ski 1 in particular, the fastening device 42 is formed such that relative movements between the fastening device 42 bzw. between the fastening element 43 and the support body 4 are allowed in the longitudinal direction of the ski when the ski body is subjected to a sag or bending. In contrast, the fastening device 42 prevents relative movements between the support body 4 or its rear end portion 6 and the ski 1 in all directions transverse to the ski longitudinal axis.
The stiffness of the support body 4 made of plastic is in any case dimensioned such that the support body 4 with respect to deflections has a significantly lower flexural rigidity, as the ski 1 within its longitudinal section to the support body 4 congruent. That is, the ski 1 per se within the bond mounting zone of an elastic deflection is significantly higher in 19/03/2012 17:32
No .: R982 P.021 / 031 25 _____. • ^ ύ.ι ^ ΙΑτ.Μνν'Β '. ·· ** 17: 31.32 19-03-2012 22/31 18 opposite to the one in the binding mounting area at the Schioberseite arranged or fixed support body 4 per se.
The embodiments show possible embodiments of the Schi 1 and the connecting device 3, it being noted at this point that the invention is not limited to the specific dargeeteten embodiments thereof, but also various combinations of the individual embodiments are mutually possible and this variation possibility due to Teaching about the technical action through the invention of the skill of the person working in this technical field. So are all conceivable embodiments, which are possible by combinations of individual details of the dargesteilten and described embodiment variant of the scope of protection.
For the sake of order, it should finally be pointed out that in order to better understand the construction of the ski 1 or the connecting device 3, these or their components have been shown partially 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. 1-5 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 details of these figures. 1 n i m / om ο Μ -'Χ'λ Nr R982
K2011 / 38800 P .022 / 031 25 17:33:50 19-03-2012 26/31 · * 4 · 4 4 * * 444t * · 4 * 4
Reference numeral 1 Schl 36 support body 2 upper side 37 foam element 3 connecting device 38 support length 4 support body 39 support length 5 end section 40 longitudinal guide 6 end section 41 longitudinal guide 7 longitudinal middle section 42 attachment device 8 attachment zone 43 fastener 9 fastening means 10 bending beam 11 bottom 12 distance 13 clearance 14 surface recess 15 thickness 16 thickness 17 upper side 18 coupling device 19 longitudinal end 20 longitudinal end 21 bearing block 22 leg 23 bearing part 24 connecting arm 25 articulated joint 26 articulated joint 27 running surface 28 pivoting axis 29 pivoting axis 30 fixing means 31 guide rails 32 sliding plate 33 guide groove 34 limiting element 35 leg N2011 / 36800 10 // 1-3 / 9 / 119 17-11¾ No R982 P.026 / 031

权利要求:
Claims (10)
[1]
25 17:32:07 19-03-2012 23/31

1 Schi (1) with connecting device (3) for connecting a front and rear shoe body having ski binding with the ski (1), comprising a plate-like support body (4) for the jaw body, which support body (4) in its front end portion (5) is designed for holding the front jaw body and in its rear end portion (6) for holding the rear jaw body, wherein the support body (4) in its Längsmitteiabschnitt (7) has a fastening zone (8) for rigid connection with the ski (1) at least the front end portion (5) of the support body (4) relative to the attachment zone (8) and the ski (1) forms a free-standing bending beam (10) whose longitudinal end (19,20) remote from the attachment zone (8) means at least one mechanical coupling device (18) with the ski (1) is relatively movably connected, characterized in that the free-standing bending beam (10) from Ku is formed, wherein the coupling device (18) comprises a connecting arm (24) in its first end portion a first hinge connection (25) relative to the bending beam (10) and in its second end portion a second hinge connection (26) relative to the ski (1 ), wherein the first or second hinge connection (25, 26) on a sliding in the longitudinal direction sliding adjustable guide carriage (31) is ausgebikfet, and that a limiting element (34) for suppressing, limiting or inhibiting Abhebebewegungen of the bending beam (10) relative to the ski (1) is formed.
[2]
2. ski according to claim 1, characterized in that at least the free-standing bending beam (10) of the supporting body (4) is formed of glass fiber reinforced, molded plastic
[3]
3. ski according to claim 1 or 2, characterized in that the coupling device (18) with respect to a vertical, parallel to the longitudinal direction extending longitudinal section a substantially C-shaped bearing body (21) N2011 / 36800 1 η ιηη i om o 17 ΤΔ No. R982 P.023 / 031 25 17:32:48 19-03-2012 24/31 • «t * · · * | The lower leg (22) has a bearing part (23) for the connecting arm (24) and its upper leg (35) has the limiting element (34 ) trains.
[4]
4. Ski according to one of the preceding claims, characterized in that the carriage (31) comprises a sliding plate (32) which is slidably guided in a guide groove (33) on the bending beam (10) in the longitudinal direction of the ski and via the first articulated connection (25). is coupled to the connecting arm (24)
[5]
5. ski according to one of the preceding claims, characterized in that the bending beam (10) by a between the top (2) of the ski (1) and the bottom (11) of the bending beam (10) arranged resiliently supporting body (36) is supported against the ski (1).
[6]
6. ski according to claim 5, characterized in that the elastically yielding support body (36) related to the Schil longitudinal direction support length (38) of less than 5 cm from the top (2) of the ski (1) and / or one on the Schilängsrichtung Having related support length (39) of less than 5 cm from the bending beam (10).
[7]
7. ski according to one of the preceding claims, characterized in that the rear end portion (6) of the support body (4) by means of a Be-festigungsvonichtung (42) is supported on the Schioberseite load transfer, supported in the longitudinal direction and freewheeling secured against lifting from the Schioberseite is.
[8]
8. ski according to claim 7, characterized in that the fastening device (42) comprises a bracket or snhellAnartiges Befeetigungeelemont (43) which surrounds the supporting body (4) in its rear end portion (6) or interspersed with the Schi (1) is rigidly bolted. N2011 / 38600 ιη »Λ1 / ΊηΐΟ 1 7 · Q / l llr · RQfi p.024 / 031 25 17:33:25 19-03-2012 25/31 3
[9]
9. Ski according to one of the preceding claims, characterized in that the front and / or the rear end portion (5,6) of the supporting body (4) has a substantially d-rail or C-shaped cross-sectional contour, which a longitudinal guide (40,41 ) forms for the front and / or rear shoe body
[10]
10. Schl according to any one of the preceding claims, characterized in that the support body (4) aulweist lower stiffness with respect to deflection, as the ski (1) within its to the support body (4) congruent longitudinal section. ATOMIC Austria GmbH represented by AnwätteOiSynS ^ artner Rechtsanwalt GmbH N2011 / 36800 P "n / noionio n-oc Mr RQft .025 / 031

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同族专利:

公开号 | 公开日

US8720935B2|2014-05-13|

EP2641637A2|2013-09-25|

US20130249193A1|2013-09-26|

AT512187B1|2013-06-15|

EP2641637A3|2015-07-01|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

DE3602364A1|1986-01-27|1987-07-30|Meyer Hans Dipl Ing Fh|SPRINGBOARD FOR A SKI|

DE4321239A1|1992-07-15|1994-01-20|Fischer Gmbh|Downhill ski with binding holder plate - has longitudinal guide along which holder plate ends move|

DE19517417A1|1995-05-17|1996-11-21|Marker Deutschland Gmbh|Ski binding|

DE19654410A1|1996-02-24|1997-08-28|Voelkl Franz Ski|Support plate|EP2859924A1|2013-10-09|2015-04-15|ATOMIC Austria GmbH|Binding support plate for connecting a ski binding with a ski and ski equipped with the same|AT302130B|1970-09-28|1972-10-10|Smolka & Co Wiener Metall|Soleplate|

AT401351B|1988-09-30|1996-08-26|Atomic Austria Gmbh|CONNECTING DEVICE FOR HOLDING A SKI BOOT ON A SKI|

CH681205A5|1990-03-06|1993-02-15|Varpat Patentverwertung|Ski-boot binding - has damper between coupling half and bearing plate hinging on ski|

US5129668A|1990-09-28|1992-07-14|Leonard Hecht|Ski boot binding mounting|

FR2675392B1|1991-04-22|1995-06-23|Salomon Sa|DAMPING DEVICE FOR SKIING.|

FR2742344B1|1995-12-19|1998-01-16|Rossignol Sa|GLIDING BOARD EQUIPPED WITH A DEVICE INTENDED TO MODIFY THE STIFFNESS OF THE BOARD UNDER THE EFFECT OF A VERTICAL THRUST GIVEN BY THE USER|

FR2742343B1|1995-12-19|1998-01-16|Rossignol Sa|SLIDING BOARD EQUIPPED WITH A DEVICE FOR MODIFYING THE STRAIGHTNESS OF THE BOARD UNDER THE EFFECT OF A VERTICAL DRIVE GIVEN BY THE USER|

US5820154A|1997-04-29|1998-10-13|Howe; John G.|Ski construction|

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|

JP2001070496A|1999-09-01|2001-03-21|Takeshi Yoneyama|Binding plate for ski|

FR2812211B1|2000-07-28|2003-02-07|Salomon Sa|SLIDING BOARD|

FR2831829B1|2001-11-06|2003-12-19|Rossignol Sa|PLATFORM FOR INCREASING FASTENERS OF A SHOE, AND SNOWBOARD ON SNOW EQUIPPED WITH SUCH A PLATFORM|

EP1424107B1|2002-11-29|2006-01-11|Tyrolia Technology GmbH|Glide board, in particular ski|

USD647156S1|2009-11-20|2011-10-18|Rottefella As|Sticker area of a ski binding|WO2015150216A1|2014-03-31|2015-10-08|Vist Tech S.R.L.|Ski binding|

法律状态:
2017-11-15| MM01| Lapse because of not paying annual fees|Effective date: 20170319 |

优先权:

申请号 | 申请日 | 专利标题

ATA334/2012A|AT512187B1|2012-03-19|2012-03-19|Ski with connecting device for a ski binding|ATA334/2012A| AT512187B1|2012-03-19|2012-03-19|Ski with connecting device for a ski binding|

US13/826,716| US8720935B2|2012-03-19|2013-03-14|Ski with a connecting device for a ski binding|

EP13159657.9A| EP2641637A3|2012-03-19|2013-03-18|Ski with fixing device for a ski binding|

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