Ski fastener

专利摘要:
Ski binding as described with a retaining shell (40), which moves jointly with a pivoting part (30) and which, in order to provide a transition between a closed and open position in relation to the part, is mounted pivotally on a horizontal transverse axle (20) which resists ski-ing movements, whereby the closed position of the binding is secured by a spring locking piece (60). The pivoting part (30) carries a locking element (32) which in the closed position of the binding engages in a recess (41b) on the retaining shell (40). The latter shell (40) overlaps the front sole projection (101) of a ski-boot (100) while the locking element (32) also passes down through an opening (104) in the sole projection (101). In the open position of the binding, however, the locking element (32) is moved away from the inside of the retaining shell (40). In accordance with the invention the retaining shell (40) and pivoting part (30) are pivotally mounted on a joint transverse axle (20), which is secured to a support block (10). The combined pivoting of the retaining shell (40) and pivoting part (30) take place against an elastic element (90). The pivoting part (30) carries, on an upward-pointing protuberance (33), the locking piece (60), which in the locking position of the binding engages with the retaining shell (40). A spring (70) presses apart the retaining shell (40) and the pivoting part (30).
公开号:SU1743337A3
申请号:SU874203209
申请日:1987-07-21
公开日:1992-06-23
发明作者:Виттманн Хайнц；Эрдай Роланд；Хельцль Клаус
申请人:Тмц Корпорацион (Фирма)；
IPC主号:

专利说明:

cl
WITH
This invention relates to a ski bind with a ski boot for a racing and touring ski.
The purpose of the invention is to increase reliability in operation.
FIG. 1 shows the ski mount in the open position, i.e. in the position ready to enter the boot; in fig. 2 - the same, in the position when driving, cut; in fig. 3 - the same, in the closed position without load from the side of the ski boot; on big. 4 - the same, in the position for walking; in fig. 5 - the same, in the position for driving, top view; in fig. 6 shows a fastening case of a ski binder with a ski boot inserted in the first embodiment, top view; in fig. 7 - ski boot in the first form of implementation,
side view; in fig. 8 — fastener holder of the ski mount with the ski boot inserted in the second form of execution, top view; in fig. 9 - ski boot in the second form of execution, side view; in fig. 10 - ski mount option; in fig. 11 - maximum deviation of the lock when closing the fastening clip; in fig. 12 - ski mount according to FIG. 2; in fig. 13 - ski mount in position for driving; in fig. 14- section A-A in FIG. 13; in fig. 15 - ski mount with unlocked latch; in fig. 16 - ski mount during the process of removing the boot, section; in fig. 17-20 are the details of the ski mount in FIG. 14-16; in fig. 21 - modified stop organ; on
VI
N CO
Stock XI

with
FIG. 22 shows the ski mount detail in FIG. 3
Ski mount consists of the following elements and operates as follows.
In the first form of the ski mount for racing or tourist ski 1 and its corresponding ski boot 2 on the upper side of the ski 1, the support post 3 is mounted with screws 4. It consists of a support plate 5 with two walls 6 that start at the front end The support plate 5 facing the toe of the ski goes approximately to the middle of the support plate 5 and in the last segment is provided with a transverse axis 7. The support plate 5 has an edge 8 at the front end and a support surface 9 at the rear end in which it is recessed screws.
A pivot part 10 is fastened on the transverse axis 7, which, by means of the base 11, lies on the supporting surface 9 of the support post 3. The base 11 on the side opposite to the ski 1 is provided with surfaces 12 that fall inclined from the longitudinal axis of attachment to the outer side. On the side of the base 11, opposite to the transverse axis 7, there are fixing pins or levers 13. On the transverse axis 7, the fastening yoke 14 is also fixed, the surface of the base 15 of which is provided with a free space 16 for the fixing pins 13c with other breakthroughs 17 (Fig. 6). The side walls 18 of the fastening casing 14, which in their front part are connected by a transverse bridge 19, carrying the retaining groove 20, and in the rear part opposite to the transverse axis 7, are provided with supporting surfaces 21, from above are attached guide rails 22,
At the upper end of the protrusion 23 of the pivot part 10, which extends upward from the transverse axis 7, an axis 24 is arranged, on which a latch 25 is disposed, made in the form of a two-arm lever and having on its shoulder, facing the fastening ring 14, a concave support 26 ( Fig. 10-12) and the locking protrusion 27, and on the other shoulder, the opposite ski 1, - the recess 28.
For a spring 29 located around the transverse axis 7 and spreading the fastening ring 14 and the turning part 10 in different directions, the corresponding hollow spaces 30 are provided in the base 11 of the turning part 10. The locking spring 31, mounted on the axis 24, pushes the lock 25 to the fastening holder 14 in the direction of the lock.
At the front of the support post 3, an elastic element 32 is positioned so that with its recess 33 it lies on the edge 8 of the support plate 5 and rests with its part opposite the edge 8 on the rotatable part 10. The elastic element 32 is provided with an opening 34 for easy insertion of the screw 4 when mounting on ski 1.
The ski boot 2 inserted into the mount (Fig. 7) is provided at the front with an extension of the sole 35, which is formed by the protrusions 36 and the U-shaped coupling element 37, filled with their knees 38 between them. A hole is formed between the coupling element 37 and the sole 39 of the sole 40. The front portion of the sole is provided with wedge-like surfaces 41 and 42, the lower guide surface 42 being intended to lie on the surface of the base 15 of the fastening sleeve 14. The angle between the upper 41 and lower 42 guide surfaces is equal to the angle between the base surface 15 and the guide bars 22 of the fastening casing 14, since, when the ski boot 2 is inserted into the mount, the upper guide surface 41 must lie below the guide bars 22 of the mounting bracket 14. The sole section provided with the guide surfaces 41 and 42, It also has supporting surfaces 43, which, when the ski boot 2 is inserted, abut parallel to the supporting surfaces 21 of the fastening clip 14.
In the second embodiment (Figs. 8 and 9), in the side walls 44 of the fastening casing 45 there are breakthroughs 46 extending outwardly. The ski boot, related to this form of execution, on the outer side of the coupling element 47, surrounded by the sole material, is provided with beveled surfaces 48.
When the mount (Fig. 1) is put on, the ski boot 2. with its guide surfaces 41 and 42 is inserted into the fastening clip 14 from above with an inclination until it rests against the locking protrusion 27 of the lock 25, and then is pushed down. holder 14 turns downward against the direction of the force of the spring 29 and partly against the force of the locking spring 31.
In this case, the locking pins 13 pass from below into the hole 40 in the continuation of the sole 35 of the ski boot 2. The beveled surface of the linear segment 49 of the locking pin 13 serves in the first phase of lowering the fastening clip 14 to facilitate insertion of the locking pin 13 into the hole 40 until the ski the shoe 2 will abut its support surfaces 43 against the support surfaces 21 of the fastening cage 14. In the second phase, the clutch member 37 moves along the linear segment 49, but with increasing tensile stress. In the third phase of lowering, the outflow 50 of the transition of the linear segment 49 to the arc segment 51, while the coupling element 37 moves along the arc segment 51 to its final position, the tensile stress remains constant, since the center of the arc segment 51 is in the transverse axis 7; At the same time, the transverse jumper 19 slides down along the inner side of the locking protrusion 27, pressing it in the opening direction (Fig. 10 and 11) until the locking protrusion 27 enters its locking groove 20 while fixing the position . The insertion into the fastener is carried out against an input force increased in relation to the spring 29, conceived as an installation spring, and the locking spring 31 is additionally subjected to load when the fastening cage 14 is deflected. This solution is obtained simply by means of constructive measures in implementing Clamp 25 and the transverse web 13 the fastening clip 14, so that when inserting into the fastener the angle of rotation a of the retainer 25 increases, as a result of which the spring 31 is more compressed. Due to the insertion into the fastener directed against due to the increased spring force, the premature uncontrolled locking of the fastener is removed until the ski boot 2 is firmly positioned in the fastener holder 14. The snow in the fastener squeezes out in the fastening in the fastening 17 the base of the 15 fastening cage 14. In the second embodiment, the snow is fed through the beveled surfaces 48 to the engagement element 47 to the breakthroughs 46, in the side walls 44 of the fastening casing 45 and pressed out through them. In addition, the snow located between the pivot part 10 and the mounting ring 14 comes out through the oblique surfaces 12 at the base 11 of the pivot part 10.
In the position of the fastening cage 14 fully lowered to the ski 1, when it lies on the support surface 9 of the support plate 5, as is the case in the riding position according to FIG. 2, the clutch member 37 occupies its lowest position in the arcuate segment 51 of the locking pin 13, while the locking protrusion 27 abuts against the wall 52 lying in
the direction of closing of the latch 25. In this position, which the fastener takes in the hundred position, you can open the latch 25 by inserting the end of the ski pole into its recess 28 and pressing against the direction of the force of the locking spring 31, and when you lift the ski boot 2 meshed with locking pin 13, and then it can be removed from the retaining clip
14.
FIG. 3 shows the mounting in the closed position, but without the impact of the ski boot 2. Thanks to the action of the spring
29, the fastener holder 14 rises until the locking protrusion 27 of the retainer 25 completely enters the retaining groove 20. In this position (FIG. 22), the engagement of the locking protrusion 27 of the retainer 25 with the cross-member 19 of the retaining fastener 14 is shown, the retainer 25 cannot be opened . The path of the locking protrusion 27 with the deviation of the latch 25 in the direction of opening is shown by a dash-dotted line in the form of an arc
53 extending around axis 24. This deflection of latch 25 is obstructed by the convex region 54 of the wall of the transverse web 19, which lies in the direction of opening of the latch 15, which is thus
represents additional protection for the latch 25. If the ski boot 2 is inserted in the mount, it passes the position (FIG. 3) in the first phase of the walk. Due to the movement of the mounting bracket
24 with respect to the pivot part 10, the clutch element 37 of the ski boot 2 is in this position in the upper part of the arc hole 51 of the fixing pin 13. With the further raising of the ski boot 2 (FIG. 4), the locking position between the fixture 25 and the cross web 19 of the fastening clip 14 is maintained and, on the other hand, the position of the element 37 is maintained.
coupling on the arc segment 51 of the locking pin 13, whereby the fastener holder 14 and the turning part 10 form a whole and together turn against the force of the elastic element 32 in the counterclockwise direction.
The snow collected in the mount during walking is extruded from the mount through surfaces 55 and 56 to squeeze out the snow, which is made on both the support plate 5 and the bottom of the rotary part 10,
Essential for the proposed ski bind is that the latch 25 and the transverse web 19 of the fastening cage 14 are so mutually consistent that the latch 25 in the open and closed position of the mount only takes a certain position. This position is established by the mutual arrangement of the latch 25 and the fastening casing 14, which, when the fastening is opened, is obtained due to the fit of the lift 57 of the transverse web 19 to the concave stop 26 of the retainer 25, and when closed, due to the fit of the locking protrusion 27 of the retainer 25 to the retaining wall 52 the groove 20 of the transverse web 19, which lies in the direction of closing the lock 25.
The latch 25 and the transverse jumper 19 of the fastening casing 14 (FIGS. 10-12) are coordinated so that the position of the latch 25 remains constant in the open and closed states of attachment. Both when opening and closing the fastener, the lift 57 of the transverse web 19 of the fastening cage 14 and the locking protrusion 27 of the retainer 25 slides one relative to the other, and the retaining fastener 14 rotates in one direction, and the retainer 25 rotates the movement in which it reaches the maximum turning value and returns to its original position. The position of maximum deflection is determined by the point 58 of the intersection of two curves, namely, arc 53, which is described by locking protrusion 27 around axis 24, and arc 59, which is described by lifting 54 of transverse bridge 19 around transverse axis 7. As in the example of implementation, 25 when the fastener is open and closed remains the same, and the intersection point 58 has a fixed position, the angle of rotation of the clamp 25 when the fastener is closed is identical to the minimum angle of rotation / when the fastener is opened.
FIG. 11 shows the deviation of the retainer 26 and the fastening cage 14 without representing all the other details, with the fastening cage 14 showing only the transverse web 13. The position of the retainer 25 and the fastening cage 14 in the open state of the fastening is illustrated with solid lines. When closing the mount, i.e. when the fastening collar 14 is rotated downwards, the crosspiece 19 slides with its lift 57 downward along the inner side of the locking protrusion 27, and it tends to bring the latch 25 to the open position until it reaches its maximum turning value, which is shown in FIG. 11 by the dashed line. After the transition of this position, the fastening yoke 14 deflects further, and the latch 25 abuts its retaining tab 27 against the wall 52 of the transverse web 19, which lies in the direction of the closing of the latch 25, and the latch 25 returns to its original position. The position of the transverse web 19 with the fastener closed is shown by a pull-line (Fig. 11).
The ski mount (Fig. 13-20) corresponds in its design to the described mount, with the exception of the implementation of the lock and its locking member.
On the transverse axis 7, in addition to the spring 29, an additional torsion spring 61 with two whiskers is placed as a locking member for the clamp 60.
In the shoulder of the locking lever 60, carrying the locking protrusion 62, a groove 63 is made having a rectangular section. At the base of the groove 63 at the end remote from the axis 24, a locking protrusion 64 is made. A groove 63 between the locking protrusion 64 and its closest to the axis 24 ends in an arc.
An additional torsion spring 61, one mustache 65 of which is fixed in the pivot part 10, with the other mustache 66 enters groove 63. The end 67 of this usa 66 (17-20) is made in the shape of a bow. But he can carry a roller too. If at the point of contact of the end 67 of the nipple 66 with the base of the groove 63 a normal plane to the axis of the nib is drawn, then it forms an angle y with the tangent plane to the base of the groove, which is greater than the friction angle between the materials of the latch 60 and the torsion spring 61.
In order to better understand the effect achieved by modifying latch 60, you first need to briefly repeat the ski mount function according to the previously described implementation forms and then explain the function of the modified execution pattern: in the ski mount position while driving (fi. 14 and 17) the ski mount with weakened lock (Fig. 18), Fig. Figures 19 and 20 show the intermediate positions of the retainer and one usa of the torsion spring during the boot removal process.
The function of the ski mount according to the previously presented embodiment is as follows: when entering the open mount, the ski boot (not shown) slides over from the top with a slope into the fastener holder 14. Then the ski boot and the fastener holder 14 turn downward through the position shown in FIG. 16 to the position according to FIG. 14 and secured with retaining pins 13, which pass through the apertures of the outsole. The latch 60, which rotates around the axis 24, slides with its locking protrusion 62 through the transverse crosspiece 19 of the fastening cage 14 (Fig. 16) and finally locks in the recess notch 20 of the transverse crosspiece 19 (Fig. 14). This achieves the locking of the fastener, and the fastening yoke 14, as well as the turning part 10, together can rotate around the transverse axis 7 against the action of an elastic element (not shown).
If the skier intends to remove the boot from the mount, he presses the end of the ski stick on the recess 68 of the latch 60, as a result of which he turns against the force of the locking spring 31 (Fig. 14 and 17) counterclockwise. At the same time, the locking protrusion 62 emerges from the locking groove 20 of the transverse web 19 of the fastening casing 14, so that the latter can rotate relative to the pivot part 10 until the locking pins 13 come out of the ski boot extension. In this case, the skier during the entire process of removing the boot must press down the latch 60 A in the open position with a ski pole.
To facilitate this process of removing the boot, the latch 50 is held in the folded down position in accordance with the modification according to the invention with the aid of the usa 66 of the torsion spring 61 (Figures 15 and 18). Due to this, the skier does not have to hold the latch 60 in the downward state when removing the boot, but may, when leaving the mount, rest with both ski poles on the ski track.
During this withdrawal from the mount, due to the upward rotation of the support holder 14, the spindle spring 61, spring 61, with a short idle stroke, through the cross bar 19 of the mounting holder 14, is pressed over the locking protrusion 64 of the retainer 60, and its locking protrusion 12 already reaches the position above the upper end
the area of the transverse web 19 of the fastening clip (Fig. 19). This achieves the fact that the torsion spring 61 with a further upward rotation of the fastening clip 14
is pressed back into its ready position by the jumper 19, as well as by the locking spring 31.
Thus, the torsion spring 61 is forcibly returned to its original position with an arbitrary exit from the mount. The idle is designed in such a way that the upper side of the transverse web 19 of the fastening cage 14 is gripped by the locking protrusion 62 of the brace 60 during the exit from the mount, so that re-locking or blocking is prevented (Fig. 19 and 20). In this case, the mount is ready for the new input process.
0 The torsion spring 16 (Fig. 21) corresponds to the torsion spring 60 of the previous embodiment example (Fig. 13-20) and is U-shaped. It has two bars 70, which are fixed in the rotary part 10
5 fasteners. The other two whiskers 71 are connected by a jumper 72. This jumper 72 is inserted into the groove of the latch 60 corresponding in width. The coils 73 of the torsion spring 69 are between the whiskers 70 and 71
0 are placed on the transverse axis 7 of the ski support located in support post 3.
Making a transverse lintel mounting cage with a convex section
5 for additional locking protection can also be given in the second embodiment (Figs. 8 and 9). Also, an enhanced locking force of the fastening yoke can be implemented for the second form of implementation.
If it is necessary to further increase the locking force of the fastening clip, then the position of the lock in the open state of the mount should be stronger than twisted in
5 in the direction of closure than in the closed state in order to increase the spring path that it travels when locking the fastener. This could be achieved, for example, with the help of a concave
0 stop, more deeply milled in the lock. With the help of a different design of the lock and the transverse web, it is possible to vary the position of the lock with the fastener open and closed and thus change the angle of rotation when closing the fastener.
Further, the end of the corresponding usa of the torsion spring, which is erected into the recess groove, may be provided with a rounded, for example spherical, head.

权利要求:
Claims (16)
[1]
1. Ski mount with a ski boot for a racing or touring ski, containing a support pole rigidly fixed to the ski with a horizontal transverse axis fixed to the ski with a spring and with a fastening clip mounted on it for rotation to accommodate the front elongation of the shoe sole and swiveling parts with at least one fixing pin installed with the possibility of placement between the walls of the cage and in the hole in the elongation of the sole of the boot, the protrusion of the front part of the rotary part whether it carries a transverse axis with a spring retainer installed with the possibility of engagement in the closing position with a transverse crosspiece of the fastening cage having a stopper side, and the spring is installed with the possibility of unscrewing the fastening cage from the swivel part, characterized in that in order to increase reliability in operation, the surface the fixing pin facing the transverse axis is formed by arcuate portions interconnected with each other, with the center of the arc on the transverse axis and angled to the arcuate portion of the pr eynym portion and on the sidewalls of the attachment clips are made bevelled bearing surfaces for contact with the ski boot.
[2]
2. Mount pop. 1, characterized in that the bevelled support surfaces are arranged symmetrically with respect to the longitudinal axis of the mount, and the bevel angle is 45 °.
[3]
3. Fastening pop, 1, characterized in that the lateral bearing surfaces of the front part of the ski boot are beveled at its longitudinal axis, and the hole of the shoe shoe lengthening is formed by means of a grip element U-shaped in horizontal section, and its jumper is at least The side facing the ski boot is cylindrical.
[4]
4. The fastener according to claim 3, wherein the knees of the U-shaped coupling element are located inside the front extension of the sole of the shoe, having guide surfaces.
[5]
5. The fastening according to claim 3, that is, with the fact that the coupling element, at least on its outer surface, is substitute into the material of the sole of the shoe, and its side surfaces are made obliquely, and the bevel angle equal to 45 °.
[6]
6. Fastening on PP. 1-3, characterized in that the lateral bearing surfaces of the ski boot are parallel to the supporting surfaces of the fastening clip, and the guide surfaces of the ski boot are adapted to rest on the base surface of the fastening clip or on the surface of the slide rails made on the fastening clip.
[7]
7. Fastening on PP. 1 and 4, characterized in that the rotary part has a base with surfaces inclined to the transverse axis, and in the front part of the surface of the base of the fastening cage there are grooves arranged under and in front of the face side of the ski boot,
[8]
8. Fastening on PP. 1 and 5, that is, with the fact that the turning part has
the base with inclined surfaces, in the side walls of the fastening clip, are made slots located in front of the beveled surfaces of elongation of the sole of the shoe in the zone of the coupling element or the element itself, and the slots are expanding outward.
[9]
9. The fastener according to claim 1, characterized in that the transverse web on the side of the stopping groove is made convex to allow the latch to open.
[10]
10. Fastening according to claim 1, characterized in that the latch has an abutment for contact with the fastening clip when opening.
[11]
11. Fastening pop. 1, characterized in that the retainer has a locking element mounted in contact with the fastening clip.
[12]
12. Mount pop. 11, from the latch, so that the locking element is made in the form of a torsion spring, one of which is fixed to the mounting holder, the other is located in the slot made in the retainer and has a rectangular shape in cross section and arched.
[13]
13. The attachment according to claim 12, of which there is a locking protrusion,
made at the end of the base of the groove and remote from the transverse axis,
[14]
14. The fastener according to clauses 12 and 13, which is located in the groove
the clamp end of the whisker of the spring of the torsion is arcuately bent or carries a roller.
[15]
15. Fastening on PP. 12-14, characterized in that at each point of the arc of the groove between the stop protrusion and the end nearest to the transverse axis of the latch, the tangent forms with a normal plane a sliver located in the angle made to the spring, greater than the friction angle. in the lock groove.
[16]
16. Fastening under item 11, of l and h and y e-priority points:
e with the fact that the locking element is made 22.11,85 - according to claims 1-8;
in the form of a double, in a horizontal section 505.12.85- according to claim 9;
spring torsion spring, re-09.10.86-on PP.10-16.
H 195220 W 21 C
8 × 5 29 1 3Q 12 And 55 w 56 4
28 19 27
one
/ U / T I / 51 28 1 3d P 1
5537 57 S6 4 FIG. 2
yy IB
L 18
FIG. 6
C
33
35 LfQ
Q4g
7
45
5 23 7 JO; /
I FIG. YU
j3
FIG. / J
1743337
68
5 65 5G
7 29 & 51
FIG. P
.U
J / 65
one
FIG 15
4 65
7 23 68 th 52 Yu
Fig 16
74
19
52
51
FIG 21
Editor A. Kozoriz
Compiled by V. Bulanov Tehred M. Morgental
58
W
2ff FIG. 22
Proofreader N. Revska

类似技术:

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US4907816A|1990-03-13|Apparatus for attaching one end of a ski boot having an attaching element to a ski

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US4795185A|1989-01-03|Heel piece for safety ski binding

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同族专利:

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公开号 | 公开日

---

EP0247104B1|1990-12-27|

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FI89873C|1993-12-10|

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DE3676694D1|1991-02-07|

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EP0247104A1|1987-12-02|

---

FI872786A0|1987-06-23|

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FI89873B|1993-08-31|

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CN1010176B|1990-10-31|

---

FI872786A|1987-06-23|

---

CN86108355A|1987-09-16|

---

US4993742A|1991-02-19|

---

WO1987003211A1|1987-06-04|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

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FR2447731B1|1979-01-31|1984-04-13|Salomon & Fils F|

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AT375835B|1982-02-24|1984-09-10|Karl Pittl Ohg|SKI BINDING|

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FR2522512B1|1982-03-05|1984-04-27|Look Sa|

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FR2537010B1|1982-12-07|1985-03-22|Look Sa|

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DE3405861C2|1983-12-16|1990-05-31|Geze Gmbh, 7250 Leonberg|Cross-country skiing or hiking binding|AT390385B|1988-07-12|1990-04-25|Tyrolia Freizeitgeraete|SKI BINDING FOR A CROSS-COUNTRY SKIING OR TOURING SKI|

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AT395947B|1989-02-03|1993-04-26|Tyrolia Freizeitgeraete|SKI BINDING|

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AT396068B|1990-03-30|1993-05-25|Tyrolia Freizeitgeraete|SKI BINDING FOR A CROSS-COUNTRY SKIING OR TOURING SKI|

---

AT398388B|1990-03-30|1994-11-25|Tyrolia Freizeitgeraete|Ski binding for a langlauf or cross-country ski|

---

AT398279B|1990-03-30|1994-11-25|Tyrolia Freizeitgeraete|SKI BINDING FOR A CROSS-COUNTRY SKIING OR TOURING SKI|

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NO306540B1|1997-06-20|1999-11-22|Linken Binding|Ski Binding|

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US6467796B1|2000-03-10|2002-10-22|Joshua Weltman|Ski binding assembly|

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WO2006072812A1|2005-01-10|2006-07-13|Rottefella As|Ski or similar snow sliding device provided with a binding assembly aid|

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FR2899121B1|2006-03-29|2008-07-04|Salomon Sa|BACKGROUND SKI SET AND DOWNHOLE SKI FIXING DEVICE|

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KR101045992B1|2008-12-23|2011-07-01|주식회사 버즈런|Snowboard binding|

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EP2898931A1|2014-01-24|2015-07-29|Technische Universität München|Ski binding with forefoot fixing module|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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AT0342385A|AT390010B|1984-09-26|1985-11-22|Ski binding for a langlauf or cross-country ski|

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AT0352885A|AT390011B|1984-09-26|1985-12-05|Ski binding for langlauf or cross-country ski|

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AT2681/86A|AT392907B|1984-09-26|1986-10-09|Ski binding for Langlauf or cross-country ski|

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