奥地利专利AT514968A1 Tread for a ski

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优先权

专利摘要:
Running surface (3) for a ski, in particular for a cross-country ski (1), with a tread profile (4) provided in particular in a central longitudinal section of the running surface (3), the back-restraining elements (5) rising in counter-ejection flanks against a sliding direction (6) (8) has gliding surfaces (10, 10a, 10b), wherein the rear gluing elements (5) comprise at least a first ramp element (9a) with a longitudinally convexly curved sliding surface (10a) with a first radius of curvature (r1) and at least one second ramp element ( 9b), wherein the second ramp element (9b) has a longitudinally convexly curved sliding surface (10b) with a larger second radius of curvature (r2) than the first ramp element (9a).
公开号:AT514968A1
申请号:T50681/2013
申请日:2013-10-22
公开日:2015-05-15
发明作者:
申请人:Fischer Sports Gmbh；
IPC主号:

专利说明:

The invention relates to a tread for a ski, insbeson¬dere for a cross-country ski, provided with a particular longitudinal in a longitudinal section of the tread Laufflä¬chenprofil, the Rückgleithemmelemente rising opposite to a Gllei direction, merging in Abstoßflanken sliding surfaces, wherein the Rückgleithemmelemente at least a first ramp element having a longitudinally convexly curved sliding surface with a first radius of curvature and at least a second ramp element.
Furthermore, the invention relates to a cross-country ski with a sliding element, which has a running surface.
In the prior art, a wide variety of treads for cross-country skis are known, in which a backward sliding is prevented by a profiling of the tread. The Laufflächenpro¬fil usually has obliquely to the sliding direction Asked or in the ski longitudinal direction concave dished scales, with which a good repelling effect can be achieved. The disadvantage of this is, however, that the slipperiness of cross-country skis is limited.
In addition, a profiled running surface for a cross-country ski has become known from DE 2 243 229, in which trajectory-inhibiting projections are provided with a convexly curved surface in longitudinal section. Due to the curved surface contact area, a lower friction for forward sliding should be achieved without unduly reducing the effect of the repulsion edges. However, this objective can not be achieved satisfactorily with the execution of the prior art.
In DE 1 954 075, DE 78 16 929 U1 and CH 306 405, further skis have been described in which the running surface has convex elevations in order to achieve a slip-back protection.
Finally, in DE 30 24 364 Al a LaufSohlenprofilfür proposed for a cross-country ski, in which at the rear, towards the ski end, rising bevels are formed. The bevels consist of at least two oblique sections, which have different angles to the rolling plane. In the area of the slopes, comparatively teardrop-shaped troughs are provided, with which a compression of the snow in the troughs is to be achieved. However, the known embodiment with the comparatively small recesses in the bevels does not offer a satisfactory solution for improving the repelling behavior without impairing the sliding properties in the forward direction.
In contrast, the object of the present invention is dar¬in to provide a tread for a cross-country ski, as angege¬ben initially, with which on the one hand, the repulsion of the tread is to be improved, on the other hand, the best possible sliding in the direction of sliding should be achieved.
To achieve this object, it is provided according to the invention that the second ramp element has a longitudinally convexly curved sliding surface with a larger second radius of curvature compared to the first ramp element.
According to the invention, therefore, the tread pattern on two verschie¬dene ramp elements. On the one hand, a convexly curved, i. provided in relation to the longitudinal plane of the tread outwardly arched, the first ramp element, which has a favorable effect on the lubricity of cross-country skis. On the other hand, a second ramp element is provided, with which the repulsion capability is improved, without impairing the improved Gleitfähigkeit¬ by the convex first ramp element.
For this purpose, the second ramp element has a convex curvature, which is less pronounced compared to the first ramp element. Thus, it can be achieved that, when exercising the cross-country skiing, a comparatively large amount of snow is compressible below the second ramp element, whereby the repelling process is facilitated.
A particularly good compromise between good sliding and repelling properties is achieved if the radius of curvature of the second ramp element is at least 4 times, preferably at least 10 times, in particular between 15 and 20 times the first radius of curvature. In practice, it has proved to be particularly advantageous if the first radius of curvature of the first ramp element is between 10 and 40 mm, in particular 20 mm, and the second radius of curvature of the convexly curved second ramp element is between 200 and 500 mm, in particular substantially 360 mm , In this case, it is furthermore favorable if the first and second ramp segments each extend in the longitudinal direction over 2 to 10 mm in each case, preferably over 3 to 7 mm, in particular over substantially 5 mm. Preferably, the ramp elements are introduced by means of cutters in the running surface. Accordingly, cutting knives are rotated about a rotation axis with respective convex surface lines corresponding to the radii of curvature of the ramp elements, so that ramp elements having a length of preferably approximately 5 mm are incorporated into the running surface between two repelling edges in the running surface.
In order to achieve a good compromise between good sliding and repelling behavior, it is further advantageous if the Anteilder expansion of the sliding surface of the first ramp element with respect to the surface having a tread profile with Rückgleithemm¬elementen, between 3% and 60%, preferably between 5 and 50%, in particular essentially 20%.
The higher the proportion of relatively weakly curved Ram¬penflächen, the better the repulsion behavior. Within the above-mentioned limits, however, a good sliding behavior is also maintained.
If the second ramp element directly adjoins the first ramp element in the longitudinal direction, good sliding properties in the forward or sliding direction can be achieved with a favorable return inhibition in the backward direction, ie. against the sliding direction. In addition, this Aus¬führung for manufacturing reasons is preferable. In this way, in particular the ratio according to the invention between the extension of the sliding surface of the first ramp element and the extent of the sliding surface of the second ramp element can be formed.
For profiling the tread it is particularly favorable when the Rückgleithemmelementeabtwa alternately a first ramp element and a second Rampenele¬ment in the longitudinal direction of the tread. According to a preferred embodiment, a plurality of Rückgleithemmelementen is provided, which are formed in the longitudinal direction alternately as first ramp elements and second Ram¬penelemente. On the other hand, only single first or second ramp elements can be arranged behind one another, whereby other profile elements can also be present between such groups of first and second ramp elements.
In addition, the tread profile can be reinforced by the fact that the Rückgleithemmelemente have in the transverse direction of Laufflä¬che at least a first ramp element and at least a second ramp element, which preferably merge directly into one another. Particularly preferred is therefore an embodiment in which in each case a first ramp element and a second ramp element are provided in the longitudinal direction and in the transverse direction.
On the one hand to avoid the formation of small ramp elements, on the other hand not to remove too much material in the preferred incision of the ramp elements from the tread, it is provided according to a first preferred embodiment that a ramp element, in particular the second ramp element, in the transverse direction of the tread accordingly a third Krüm¬mungsradius is concavely curved, wherein the third Krümmungsradi¬us between 100 and 200 mm, in particular substantially 155 mm. In this embodiment, therefore, the ramp element seen in the longitudinal direction has a convex curvature, in the transverse direction ge, however, a concave curvature.
In this case, it is particularly advantageous if a Rampen¬element, in particular the first ramp element, is concavely curved in the transverse direction of the tread corresponding to a fourth radius of curvature, the fourth radius of curvature preferably betwe¬ 100 and 200 mm, in particular substantially 155 mm, be¬ wearing. Consequently, in particular, concavely curved ramp elements may optionally be arranged alternately with different radii of curvature in the transverse direction. By intersecting arrangement of the adjoining, concavely curved ramp elements results in the transverse direction essentially a wave structure, which has been found to Schneeverdich¬ tung to be particularly advantageous. In this case it is also advantageous if the concave radii of curvature of the ramp elements provided in the transverse direction of the tread are generally the same.
The object underlying the invention is also achieved by a cross-country ski of the initially mentioned type, in which the running surface according to one of claims 1 to 12 is ausgebil¬det.
With regard to the advantages and technical effects of such a cross-country ski, reference is made to the above explanations concerning the running surface according to the invention.
The invention will be explained in more detail below with reference to exemplary embodiments illustrated in the figures, to which, however, it should not be restricted.
In detail, in the drawing:
Figure 1 is a view of a part of a cross-country skis having on the underside a tread with Rückgleithemmelementen auf¬weist consisting of two types of, seen in the longitudinal direction of the ski, convex curved ramp elements with different radii of curvature.
Fig. 2 is an enlarged sectional view taken along the line II-II in Fig. 1;
Fig. 3 is an enlarged sectional view taken along the line III-III in Fig. 1;
4 is an enlarged sectional view taken along the line IV-IV in Fig. 1st
Fig. 5 is a view of an alternative embodiment of the Rückgleit-inhibiting elements;
6 is an enlarged sectional view taken along the line VI-VI in Fig. 5 /
7 shows a view of a cross-country skis with a further, alternative embodiment of the tread;
Fig. 8 is an enlarged sectional view taken along the line VII-I-VIII in Fig. 7;
Fig. 9 is an enlarged sectional view taken along the line IX-IX in Fig. 7; and
10 is an enlarged sectional view taken along the line X-X in FIG. 7th
1 shows a section of a cross-country ski 1 with a sliding element 2 formed in a known manner, which has a running surface 3 on the underside. The tread 3 has in the illustrated area, which is located below a (not shown) ski binding, a tread 4, with which a backward sliding is prevented when exercising the cross-country skiing. The tread 4 has Rückgleithemmele-elements 5 with against a sliding direction 6 rising Gleitflächen 10 on. The sliding surfaces 10 drop off at the rear end in respect of the sliding direction 6 in repelling flanks 8, which extend substantially perpendicular to the longitudinal direction of the running surface 3. In the embodiment shown, the Rückgleithem- are elements 5 formed by ramp elements 9.
As can be seen from FIGS. 1 to 3, the back-restraining elements 5 have, in particular, two types of ramp elements 9, the first ramp elements 9a and second ramp elements 9b being provided. The first ramp elements 9a have convexly curved, ie with respect to the tread 3 outwardly curved, sliding surfaces 10a with a first radius of curvature rl of about 20 mm. In the embodiment shown, the second ramp elements 9b also have convexly curved sliding surfaces 10b which, however, are formed with a second radius of curvature r2 that is many times greater than that of the first ramp elements 9a. The second radius of curvature r2 in the embodiment shown is approx. 360 mm, so that essentially pass smooth sliding surfaces 10.
As can be seen in particular from FIG. 1, in which the sliding surfaces 10a are shown hatched for better recognition, the surface portion of the sliding surfaces 10a relative to the total surface of the tread profile 4 with Rückgleithemmele-elements 5, 5 'and a repeat unit of the tread profile 4 (at in the embodiment shown, this is 50mm), essentially 20%. As a result, on the one hand the repelling ability of the cross-country skis can be improved, on the other hand a particularly high sliding ability of the cross-country skis is achieved.
It can further be seen in FIGS. 1 to 3 that the first 9a and second ramp elements 9b are arranged in groups 12. The groups 12 of ramp elements 9 have a first 9a and a second ramp element 9b in the longitudinal direction behind one another. Inquerrichtung are also alternately first 9a and second Ram¬penelemente 9b provided.
Between the groups 12 of ramp elements 9, further backhoe elements 5 'are provided. The further Rückgleithemm¬elemente 5 'consist of rows of stepped ramps, which are formed like a sawtooth in the longitudinal section. The stepped ramps have a secondary stage with its own repulsion edges, which is lower than the repulsion edges of the stepped ramps. Such a tread pattern 4 is known from EP 0 592 384 B1.
In Fig. 4, the formation of the ramp elements 9 is shown in Querrich¬tung the tread 3. In the embodiment shown, the second ramp element 9b has a concave curvature with a third radius of curvature r3 in the transverse direction, the third radius of curvature r3 being 155 mm in the illustrated embodiment. In this embodiment, the sliding surface 10a of the first ramp element 9a has a concave curvature with a fourth radius of curvature r4 in the transverse direction, wherein the fourth radius of curvature r4 likewise carries 155 mm in the embodiment shown. The concave radii of curvature r3, r4 are hereby blended with each other, so that advantageously results in a wave-shaped structure in the transverse direction of the tread.
With such a configuration, on the one hand the training to small ramp elements 9 avoided, on the other hand, but not too much in the preferred cutting of the Rampenele¬mente 9 away from the tread. Of course, the radii of curvature r3, r4 can also be chosen differently.
FIGS. 5 and 6 show a further exemplary embodiment in which the second ramp element 9b in the longitudinal direction of the cross-country skis in each case directly adjoins the first ramp element 9a. In the embodiment shown, first ramp elements 9a and second ramp elements 9b are provided alternately in the longitudinal direction. Also in the transverse direction of the tread, first ramp elements 9a and second ramp elements 9b are alternately provided, with adjacent ramp elements 9a, 9b merging directly with each other.
In this embodiment, in this exemplary embodiment, a significantly increased surface portion of the sliding surfaces 10a with respect to the total surface of the tread profile 4 with Rückgleithemmelementen5 or a repeat unit of the tread 4 (compared to the embodiment of Figures 1 to 4) (in the embodiment shown, this is 50mm). Due to the alternating design in the longitudinal and transverse directions, the result is an area fraction of approximately 50%.
Another embodiment of the invention is shown in Figs. 7-10.
Shown herein is a tread pattern 4 having predominantly stud ramps, each having a secondary stage with a positive repulsive edge lower than the ramp edges of the ramp; Such secondary stages are known in particular from EP 0 592 384 B1.
As can be seen in FIG. 8, ramp elements 9b with a radius of curvature r2 of approximately 360 mm are provided as part of these step rams with a secondary stage.
In addition, however, regions are provided in the tread profile 4, in which - as can be seen in FIG. 9 - again a ramp element 9a with a comparatively small radius of curvature ofapprox. Seen 20mm in the longitudinal direction directly to a Rampenele¬ment 9b with the comparatively large radius of curvature rl vonca. 360 mm connects.
In this exemplary embodiment, compared to the above embodiments, a significantly lower surface portion of the sliding surfaces 10a relative to the total surface of the tread profile 4 with rear-side clamping elements 5 or a repeat unit of the tread profile 4 (in the embodiment shown this is 50 mm) is provided. Essentially results in an area ratio of about 8%, so that die¬sem embodiment in particular excellent Abstoßigenschaften be achieved.

权利要求:
Claims (13)
[1]
1. tread (3) for a ski, in particular for a cross-country ski (1), with a particular in a central longitudinal section of the tread (3) provided tread profile (4), the Rückgleithemmelemente (5) with against one Sliding surfaces (10, 10a, 10b) rising in sliding edges (8), wherein the Rückgleithemmelemente (5) at least a first ramp element (9a) with a longitudinally convex curved sliding surface (10a) having a first curvature ¬radius (rl) and at least one second ramp element (9b) aufwei¬sen, characterized in that the second ramp element (9b) has a longitudinally convex curved sliding surface (10b) with ei¬nem, compared to the first ramp element (9a), has a larger second radius of curvature (r2).
[2]
2. tread (3) according to claim 1, characterized in that the radius of curvature (r2) of the second ramp element (9b) zumin¬dest the 4 times, preferably at least 10 times, in particular between 15 and 20 times the first radius of curvature (rl) is ,
[3]
3. tread (3) according to any one of claims 1 or 2, characterized ge indicates that the first radius of curvature (rl) of the first ramp element (9a) between 10 and 40 mm, in particular 20 mm, is generally.
[4]
4. tread (3) according to one of claims 1 to 3, characterized ge indicates that the second radius of curvature (r2) of the convex curved second ramp element (9b) between 200 and 500 mm, in particular substantially 360 mm.
[5]
5. Tread (3) according to any one of claims 1 to 3, characterized in that the first and second ramp elements (9a, 9b) extend in each case in the longitudinal direction in each case over 2 to 10 mm, preferably over 3 to 7 mm , especially about 5mm in the public.
[6]
6. tread (3) according to one of claims 1 to 5, characterized ge indicates that the proportion of the expansion of the sliding surface (10 a) of the first ramp element (9 a) relative to the surface which a tread profile (4) with Rückgleithemmelementen (5 , 5 ') is between 3% and 60%, preferably between 5 and 50%, in particular substantially 20%.
[7]
7. tread (3) according to one of claims 1 to 6, characterized ge indicates that the second ramp element (9b) in the Längsrich¬tung the tread immediately adjacent to the first ramp element (9a).
[8]
8. tread (3) according to one of claims 1 to 6, characterized ge indicates that the Rückgleithemmelemente (5) in the Längsrich¬ direction of the tread alternately a first ramp element (9a) and a second ramp element (9b).
[9]
9. tread (3) according to one of claims 1 to 8, characterized in that the Rückgleithemmelemente (5) in the transverse direction of the tread (3) at least a first ramp element (9a) and at least one second ramp element (9b) vor¬ preferably directly into each other.
[10]
10. Tread (3) according to one of claims 1 to 9, characterized in that a ramp element (9a, 9b), in particular the second ramp element (9b) in the transverse direction of the tread (3) corresponding to a third radius of curvature (r3) is concavely curved , wherein the third radius of curvature (r3) is between 100 and 200 mm, in particular substantially 155 mm.
[11]
A tread (3) according to any one of claims 1 to 10, characterized in that a ramp element (9a, 9b), in particular the first ramp element (9a,) is curved concavely in the transverse direction of the tread (3) corresponding to a fourth radius of curvature (r4) the fourth radius of curvature (r4) is preferably between 100 and 200 mm, in particular substantially 155 mm.
[12]
12. Tread (3) according to one of claims 1 to 11, characterized in that in the transverse direction of the tread (3) provided for radii of curvature (r3, r4) of the ramp elements (9a, 9b) are substantially equal.
[13]
13. Cross-country ski (1) with a sliding element which has a running surface, characterized in that the running surface (3) according to one of claims 1 to 12 is formed.

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同族专利:

公开号 | 公开日

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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AT311844B|1969-10-28|1973-12-10|Farbwerke Hoechst Aktiengessel|Gliding and climbing skis|

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EP0049427A1|1980-10-02|1982-04-14|Trak Sportartikel GmbH|Layer of the running sole of a ski|

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DE3024364A1|1980-06-27|1982-01-21|Jochen Plenk KG Skiwerkstätten, 8222 Ruhpolding|Long distance ski running surface - has profiles extending in rows over section of skin length and consisting of convex curVed recesses|

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FR2683730B1|1991-11-19|1995-03-31|Rossignol Sa|SKI, OR OTHER MACHINE OR SNOWBOARD ON SNOW, WITH STRIPED SOLE.|

US5344177A|1992-04-28|1994-09-06|Minnesota Mining And Manufacturing Company|Ski base and running surface|

AT397915B|1992-10-08|1994-08-25|Fischer Gmbh|RUNNING FOR A SKI, IN PARTICULAR CROSS-COUNTRY SKI|

FR2713498B1|1993-12-09|1996-01-19|Salomon Sa|Ski comprising a sole structured as a function of the pressure distribution on said ski.|

FR2713497B1|1993-12-09|1996-02-02|Salomon Sa|Ski comprising a structure adapted as a function of the gliding zones in a curve and of the flat gliding zone identifiable on said ski.|

FR2800622B1|1999-11-05|2002-02-08|Salomon Sa|SNOWBOARD FOR SNOW SURFING|

AT502718B1|2006-03-23|2007-05-15|Fischer Gmbh|Ski for cross-country skiing or Alpine skiing, has running surface having incisions formed in it extending over at least a portion of running surface between synthetic material edges|

US8061731B2|2009-01-05|2011-11-22|Michael John Popenas|Ski brake|

CA2656602C|2009-02-27|2017-06-06|Roarockit Skateboard Company|Laminates and method of manufacturing laminates with layers of non-uniform thickness|

RU2540870C1|2013-11-26|2015-02-10|Аскат Ахметович Азнабаев|Ski|CA3112786A1|2018-09-18|2020-03-26|Stephen S. Daniell|Thrust-responsive surface material for skis|

法律状态:
2019-06-15| MM01| Lapse because of not paying annual fees|Effective date: 20181022 |

优先权:

申请号 | 申请日 | 专利标题

ATA50681/2013A|AT514968B1|2013-10-22|2013-10-22|Tread for a ski|ATA50681/2013A| AT514968B1|2013-10-22|2013-10-22|Tread for a ski|

PCT/AT2014/050252| WO2015058228A1|2013-10-22|2014-10-21|Running surface for a ski and cross-country ski|

RU2016119119A| RU2664243C2|2013-10-22|2014-10-21|Sliding surface for ski and cross-country ski|

EP14805169.1A| EP3060321B1|2013-10-22|2014-10-21|Running surface for a ski and a cross-country ski|

US15/031,443| US9737786B2|2013-10-22|2014-10-21|Running surface for a ski and cross-country ski|

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