Cross-country skiing or touring ski binding

专利摘要:
Cross-country ski or touring ski binding (1) for the articulated connection of a shoe (2) to a ski (3), with a binding main body (4) having a footprint (5a) for a sole (6) of the shoe (2) and a ski support surface (5b) for at least indirect support on the ski (3), - with a holding device (7) having a receptacle (8) for pivotally mounting the shoe (2) about a transverse in the transverse direction of the binding body (4) extending pivot axis (8a ) and a holding element (9) for holding the shoe (3) on the receptacle (8), wherein the holding element (9) between a shoe (2) on the receptacle (8) holding the closed position and the shoe (3) releasable open position is slidably mounted on the binding base body (4), - with an actuating element (13) having a rotary handle (14) for transferring the retaining element (9) from the closed to the open position, wherein - the actuating element (13) a essentially slice nförmiges, eccentrically mounted force transmission element (16) which is received to implement the rotational movement of the rotary handle (14) in the displacement of the holding element in a recess of the holding element (9), so that by means of a rotary movement of the rotary handle (14), the holding element (9 ) from the closed to the open position and vice versa is feasible.
公开号:AT519525A1
申请号:T51154/2016
申请日:2016-12-19
公开日:2018-07-15
发明作者:
申请人:Fischer Sports Gmbh；
IPC主号:

专利说明:

Summary:
Cross-country or touring ski binding (1) for the articulated connection of a boot (2) to a ski (3),
with a binding base body (4), which has a contact surface (5a) for a sole (6) of the boot (2) and a ski support surface (5b) for at least indirect support on the ski (3),
- With a holding device (7) which has a receptacle (8) for the pivotable arrangement of the shoe (2) about a transverse axis of the binding base body (4) pivot axis (8a) and a holding element (9) for holding the shoe (3) of the receptacle (8), the holding element (9) being slidably mounted on the binding base body (4) between a closed position holding the shoe (2) on the receptacle (8) and an open position releasing the shoe (3),
- With an actuating element (13) having a rotary handle (14) for transferring the holding element (9) from the closed to the open position, wherein
- The actuating element (13) has a substantially disk-shaped, eccentrically mounted power transmission element (16), which is accommodated in the recess of the holding element (9) in order to implement the rotary movement of the rotary handle (14), so that by means of a rotary movement of the rotary handle (14), the holding element (9) can be transferred from the closed to the open position and vice versa.
(Fig. 1)
1/32
The invention relates to a cross-country or touring ski binding for the articulated connection of a shoe to a ski,
with a binding base body, which has a contact surface for a sole of the boot and a ski support surface for at least indirect support on the ski,
- With a holding device which has a receptacle for the pivotable arrangement of the shoe about a pivot axis running in the transverse direction of the binding base body and a holding element for holding the shoe on the receptacle, the holding element between a closed position holding the shoe on the receptacle and a releasing the shoe Open position is slidably mounted on the binding base body - with an actuating element which has a rotary handle for transferring the holding element from the closed to the open position.
Such a cross-country binding is known from DE 94 22 308 Ul. This cross-country binding has a retaining hook which can be connected to an articulated axis at the front end of the sole of a cross-country shoe. A turntable is provided on the cross-country binding to release the connection with the cross-country ski shoe. By turning the turntable, the retaining hook is moved from a closed to a release position. For this purpose, the retaining hook is eccentrically connected to the turntable. The rotary movement of the turntable is first transmitted to a connecting rod which is connected via an articulated connection to a U-shaped bracket which is hooked onto the articulated axis of the cross-country shoe.
Thus, in the prior art, a comparatively complicated power transmission mechanism is provided in order to establish and release the connection between the joint axis of the cross-country shoe and the cross-country binding. A particular disadvantage is the high weight of the known power transmission mechanism. In addition, the combined pivoting and pushing movement of the connecting rod between the turntable and the U-shaped bracket can impair the function. The switch to cross-country skiing
In the prior art, 2/32 between the closed and release positions can be made more difficult or even prevented in particular if icing impairs the lateral mobility required for the combined pivoting and pushing movement of the connecting rod.
The object of the invention is to alleviate or avoid the disadvantages of the prior art. The invention therefore has the particular aim of improving the known designs of cross-country or touring ski bindings in such a way that a more reliable and effective power transmission from the rotatable actuating element to the holding device for the shoe is achieved.
This object is achieved by a cross-country or touring ski binding with the features of claim 1 and by a cross-country or touring ski set with the features of claim 15. Preferred embodiments are specified in the dependent claims.
According to the invention, the actuating element has an essentially disk-shaped, eccentrically mounted power transmission element, which is accommodated in a recess of the holding element in order to convert the rotary movement of the rotary handle into the displacement of the holding element, so that the holding element moves from the closed into the open position by means of a rotary movement and vice versa.
Accordingly, the invention is slidable, i.e. Translationally movable holding element is provided which, in the closed position, can engage around an articulated axis on the cross-country or touring ski boot in such a way that the boot is pivotably held on the binding. To release the connection between the shoe and binding, the actuating element is provided, which can be switched between the closed and the open position by the runner. The actuating element has a rotary handle, the axis of rotation of which preferably extends essentially perpendicular to the contact surface of the basic binding body. In order to convert the rotary movement of the rotary handle into the displacement of the holding element, the actuating element also has an essentially disk-shaped force transmission element which is connected to the rotary handle in a rotationally fixed manner. The essentially disk-shaped force transmission element can thus participate in the rotary movement of the rotary handle. For force transmission to the holding element, the force transmission element is mounted eccentrically with respect to the axis of rotation of the rotary handle. In the following, the power transmission element is therefore also referred to briefly as an eccentric disk. The eccentric disk is received in a recess of the holding element in such a way that the holding element is displaced translationally, preferably essentially in the longitudinal direction of the basic binding body, when the actuating element is rotated. For this purpose, the recess is designed as a backdrop, the recess being preferably elongated, in particular essentially oval, in plan view. By turning the rotary handle in one direction, the engagement between the holding element and the hinge axis of the shoe can be established. Conversely, the engagement between the holding element and the hinge axis of the shoe can be released by turning the rotary handle in the other direction. The embodiment according to the invention has the particular advantage that the holding element can only be displaced linearly, as a result of which the guidance of the holding element on the binding base body can be facilitated. The more complicated kinematics of the prior art according to DE 94 22 308 U1 can be avoided as well as the need for an articulated connection of the connecting rod to the rear end of the hook element. Furthermore, the power transmission element according to the invention is characterized by high reliability over long periods of use. The weight can also be reduced.
With regard to a stable, simple and parts-saving design, it is advantageous if the recess is formed in a force transmission section of the holding element, which is preferably connected in one piece to a holding section of the holding element having hook-like extensions. Accordingly, the power transmission, connection and holding section of the holding element are preferably formed in one piece.
To the hook-like extensions when moving between the
4/32
To lead and open position and at least partially hide, it is advantageous if the hook-like extensions are slidably received in slot-shaped recesses in the binding body.
In order to have a rigid, i.e. In the longitudinal direction essentially immovable to create connection between the holding element and the force transmission element, it is advantageous if the recess receiving the force transmission element is closed on the other side. This enables direct power transmission between the holding and power transmission element. In this embodiment, the hinge axis of the shoe can only be arranged on the receptacle of the holding device after turning the rotary handle into the open position.
For indirect force transmission between the force transmission and holding element, it is provided in a further preferred embodiment that the recess receiving the force transmission element has an open section on a side directed toward the reception. An intermediate element can be provided on the open section of the recess, which absorbs the movement of the force transmission element and transfers it to the holding element.
In this embodiment, it is advantageous if the holding element is displaceably mounted in the closed position against the force of a spring. This allows the shoe to be connected to the binding in the closed position. In this embodiment, the holding element can be pressed briefly into the open or release position by attaching the hinge axis of the shoe, so that the hinge axis can be arranged in the receptacle of the holding device before the holding element snaps back into the closed position under the action of the spring.
To the spring-loaded arrangement of the holding element in the
To enable the closed position, it is favorable if the spring is arranged between the holding element and a spring abutment, a front end section of the spring abutment being arranged on the open section of the recess and in the closed position being connected to an active section of the essentially disk-shaped force transmission element.
5/32
According to a particularly preferred embodiment, the rotary handle of the actuating element has at least one latching element which, in the closed position, engages in a latching position with a latching element formed on the binding base body.
In principle, this embodiment can also be used with a power transmission element other than the one described above.
Accordingly, the present disclosure also relates to a cross-country or touring ski binding for the articulated connection of a shoe to a ski,
with a binding base body, which has a contact surface for a sole of the boot and a ski support surface for at least indirect support on the ski,
- With a holding device which has a receptacle for the pivotable arrangement of the shoe about a pivot axis running in the transverse direction of the binding base body and a holding element for holding the shoe on the receptacle, the holding element between a closed position holding the shoe on the receptacle and a releasing the shoe Open position is slidably mounted on the binding base body,
- With an actuating element that has a rotary handle for transferring the holding element from the closed to the open position, wherein
- The actuating element has at least one latching element which, in the closed position, engages in a latching position with a latching element formed on the binding base body.
For secure locking of the actuating element in the closed position, the rotary handle of the actuating element preferably has at least two latching elements spaced apart from one another, preferably one latching element in a front end section of the rotary handle facing away from the receptacle in the closed position and the other latching element on one of the
6/32
Recording facing rear end portion of the rotary handle is provided, and corresponding locking elements are formed on the binding base body. Accordingly, at least two latching connections are provided in this embodiment, which counteract a rotation of the rotary handle from the closed toward the open position. Malfunctions, in particular an unintentional release of the connection between shoe and binding, can thereby be reduced. The locking elements are arranged at different longitudinal positions of the rotary handle, preferably at its opposite end sections, which creates a particularly secure connection.
The locking of the rotary handle in the closed position is particularly stable if a first connection level between first corresponding locking elements extends essentially along the contact surface and / or a second connection level between second corresponding locking elements extends essentially perpendicular to the contact surface. Accordingly, one catch connection is effective in the essentially horizontal first connection plane, the other catch connection in the essentially vertical second connection plane. As a result, the twist grip can be held reliably in the closed position, for example when the twist grip is exposed to different impact or shock loads during use.
For the purposes of this disclosure, the location and direction information, such as "horizontal," vertical, "top," bottom, "front," back etc., refer to the intended use of the binding on the ski in its horizontal normal position, where "front closer to the ski tip and “closer to the end of the ski means back.
In order to enable reliable latching on the one hand and to enable comfortable operation by the runner on the other hand, a latching groove and a spring-loaded latching lug are preferably provided as corresponding latching elements, preferably the latching groove on the actuating element and the latching lug on the binding base body.
To achieve a simple but effective locking connection is
7/32 the locking lug is preferably formed on an essentially wave-shaped locking element, which has an opening on its long sides with respect to the rest of the binding base body or the other actuating element.
To hold the hinge axis of the shoe, a bearing element is preferably provided which has bearing blocks each with a recess for the pivotable arrangement of the shoe, the recesses of the bearing blocks being arranged adjacent to the receptacle of the holding device in the closed position.
For manufacturing reasons, the binding base body and the bearing blocks are preferably formed in one piece, the recesses of the bearing blocks being formed by material cutouts in the binding base body.
The invention is explained in more detail below on the basis of preferred exemplary embodiments, to which, however, it should not be restricted.
Fig. 1 shows schematically an exploded view of a cross-country binding according to the invention, in which the rotary movement of a rotary handle is transmitted via an eccentric disc to hook-shaped extensions on a holding element which, in a closed position, has an articulated axis of a (in FIGS. 6, 7) cross-country shoe on the cross-country binding holds.
Fig. 2 shows position according to FIG. 1.
schematically a top view of the cross-country ski binding (without its basic binding body) in the closing figure. 3 schematically shows one according to FIG
Side view of the cross-country binding
Fig. 4 shows schematically a top view of the cross-country binding according to Fig. 2, 3 in the rotated state of the handle for releasing the hinge axis of the cross-country shoe by moving the holding element.
Fig. 5 shows schematically a side view of the cross-country binding
8/32 according to FIG. 4 in the open position.
FIG. 6 schematically shows a cross-country shoe in a position pivotably fixed to the cross-country binding according to FIGS. 1 to 5, the hinge axis being held by the hook-shaped extensions.
FIG. 7 schematically shows the cross-country ski boot according to FIG. 6, the hook-shaped extensions being freed of the joint axis by turning the rotary handle.
Fig. 8 shows schematically parts of a cross-country binding according to the invention, in which the twist grip is fixed in the untwisted state corresponding to the closed position of the holding element by a snap connection at the front end and at the rear end of the twist grip on the binding base body.
FIG. 9 shows the parts of the cross-country ski binding according to FIG. 8 in the twisted position of the twist grip, wherein the locking engagement between the twist grip and the binding base body has been released.
10 schematically shows an exploded view of a further cross-country ski binding according to the invention, in which the holding element in the closed position is arranged displaceably on the binding base body against the action of a spring.
11 shows a top view of the cross-country binding according to FIG.
(without its basic binding body) in the untwisted position of the rotary handle.
12 shows a side view of the cross-country binding according to FIG.
in the untwisted position of the twist grip.
13 shows a top view of the cross-country ski binding according to FIGS. 10 to 12 in the rotated position of the rotary handle.
14 shows a side view of the cross-country binding according to FIGS. 10 to 13 in the rotated position of the rotary handle.
15 shows a top view of the cross-country binding according to FIG.
9/32 to 14 in the non-rotated position of the rotary handle, the holding element being moved against the force of the spring into the open or release position which frees the hinge-shaped extensions from the hook-shaped extensions.
FIG. 16 shows the cross-country ski binding according to FIG. 15 in a side view.
Fig. 17 shows the cross-country shoe when connected to the cross-country binding in the non-twisted position of the rotary handle.
18 shows the cross-country shoe shortly before the spring-loaded snap-back of the hook-shaped extensions into the engagement position with the hinge axis of the cross-country shoe.
1 to 7 show a cross-country ski binding 1 for the articulated connection of a cross-country shoe 2 (cf. FIGS. 6, 7) to a cross-country ski 3. Such cross-country skiing sets have long been known in the prior art, so that only the features essential to the invention are to be described below.
In the drawing, a cross-country ski binding 1 is shown; however, a corresponding version could also be provided for a touring binding, which can be switched between an ascent position for a pivotable arrangement of a touring ski boot on the touring binding and a downhill position for fixing the heel area of the touring ski boot to the touring binding.
The binding 1 has a binding base body 4 which is formed from an essentially rigid (hard plastic) material and which has guide webs 4a in a central region. On the upper side, the binding base body 4 has a contact surface 5a for placing a sole 6 of the (cross-country) shoe 2 (see FIGS. 6, 7). On the underside, the binding base body 4 has an essentially flat ski support surface 5b, which in the embodiment shown is mounted directly on the (cross-country) ski 3. However, further, in particular plate-shaped, mounting elements can be provided between the binding base body 4 and the ski 3 (not shown). In this case, the ski support surface 5b is indirectly connected to the ski 3.
10/32
In addition, the binding 1 has a holding device 7 for detachable connection to the shoe 2. The holding device 7 has a receptacle 8 for the pivotable arrangement of a hinge pin 2a of the shoe 2 about a pivot axis 8a (see FIG. 2) which runs in the transverse direction of the binding base body 4 (i.e. in the assembled state in the transverse direction of the cross-country ski 3). The holding device 7 also has a holding element 9 for pivotably holding the shoe 2 on the receptacle 8. For this purpose, the holding element 9 has a holding section 10 with hook-like extensions 11. The holding element 9 is in the longitudinal direction 12 of the binding base body 4 (and thus in the longitudinal direction of the ski 3) between a closed position pivotally holding the hinge axis 2a of the shoe 2 on the receptacle 8 (cf.
2, 3) and an open position releasing the hinge axis 2a of the shoe 2 (cf. FIGS. 4, 5) are displaceably mounted on the binding base body 4. To release the hinge axis 2a of the shoe 2 from the receptacle 8, the binding 1 has an actuating element 13 on the upper side of the basic binding body 4. The actuating element 13 has a rotary handle 14, which is rotatably mounted on the binding base body 4 about an axis of rotation 15 (cf. FIG. 3) which runs essentially perpendicular to the ski support surface 5B (i.e. essentially in the vertical direction). Accordingly, the rotary handle 14 can be rotated from the untwisted position shown in FIGS. 2, 3 in a substantially horizontal plane in both directions to the rotated position shown in FIGS. 4, 5 (cf. double arrow 14a in FIG. 2). The rotational movement of the twist grip 14 from the untwisted position, in which the twist grip 14 is preferably oriented essentially in the longitudinal direction 12 of the binding base body 4, to the twisted position, in which the twist grip 14 is preferably oriented essentially in the transverse direction of the binding base body 4, is shown in FIG the displacement of the holding element 9 in the longitudinal direction 12 is converted from the closed to the open position.
For power transmission to the holding element 9, the actuating element 13 also has an essentially disk-shaped, eccentrically mounted power transmission element 16, hereinafter referred to as eccentric disk 16. The eccentric disc
11/32 is arranged in a form-fitting manner on the rotary handle 14 by means of a coupling extension 17, so that the eccentric disc 16 is connected to the rotary handle 14 in a rotational test. To convert the rotary movement of the actuating element 13 into the displacement of the holding element 9, the eccentric disc 16 is received in an elongated or oval recess 18 in the holding element 9. By turning the rotary handle, a bulbous active section 16a of the eccentric disk 16 is pressed against the corresponding stop surface of the holding element 9 such that the holding element 9 is shifted from the closed to the open position and vice versa. In the embodiment of FIGS. 1 to 9, the recess 18 receiving the force transmission element 16 is completely closed on the circumference.
In the embodiment shown, the recess 18 is provided on a force transmission section 19 of the holding element 9, which is connected via a connecting section 20 with two connecting struts 21 to the holding section 10 of the holding element 9, on which the upstanding hook extensions 11 for gripping around the joint axis 2a of the shoe 2 are trained. The holding section 10, the connecting section 20 and the force transmission section 19 of the holding element 9 are preferably formed in one piece. The force transmission element 16 and the rotary handle 14 are connected to one another via a connecting element 22, here a screw.
In addition, the binding 1 has a bearing part 23 which has upwardly directed flanks 24 with indentations 25 for receiving the joint axis 2a. The flanks 24 of the bearing part 23 are received in openings 26 in the basic binding body 4 (cf. in particular FIG. 9). Adjacent to the openings 26, the binding base body 4 has slot-shaped recesses 27, in which the hook-like extensions 11 (not shown in FIG. 9) of the holding element 9 are slidably received. In addition, a bearing element 28 is formed in one piece on the binding base body 4, which bearing blocks 29a each have a recess 29b for the pivotable arrangement of the joint axis 2a of the shoe 2. The recesses 29b of the bearing blocks 29a are arranged flush with the indentations 25 of the bearing part 23 in the assembled state in the direction of the articulation axis 2a. The binding base body 4 is preferably formed from a hard plastic material, whereas the holding element 9 and the bearing part 23 are preferably made from metal.
According to the embodiment of FIGS. 8, 9, the rotary handle 14 of the actuating element 13 has a latching element 30a, which in the closed position is latched with a latching element 31a formed on the binding base body 4. In the embodiment shown, the rotary handle 14 of the actuating element 13 also has a further latching element 30b, which in the closed position is in latching engagement with a further latching element 31b on the binding base body 4. The latching element 30b is provided on a front end section of the rotary handle 14 facing away from the receptacle 8 in the closed position, and the other latching element 30a is provided on a rear end section of the rotary handle 14 facing the receptacle 8. The (first) connection level E 1 between the locking element 30b on the rotary handle 14 and the associated locking element 31b on the binding base body 4 extends essentially parallel to the contact surface 5a of the binding base body 4. In contrast, the (second) connection level E2 extends between the locking element 30a on the turning handle 14 and the associated latching element 31a on the binding base body 4 essentially perpendicular to the contact surface 5a of the binding base body 4. A depression or latching groove 32a and a spring-mounted latching lug 33a are provided as corresponding latching elements 30a, 31a on the side of the receptacle 8. In the embodiment shown, the locking groove 32a is provided on the rotary handle 14 and the locking lug 33a on the binding base body 4. Correspondingly, corresponding recesses 30b, 31b are provided on the side facing away from the receptacle 8 in each case a recess or latching groove 32b and a spring-loaded latching lug 33b. In the embodiment shown, the locking groove 32b is provided on the rotary handle 14 and the locking lug 33b on the binding base body 4. In the embodiment shown, the locking elements 31a, 31b are designed to be wave-shaped to form the resilient locking lugs 33a, 33b. On the long sides of the detents 33a, 33b, an exemption 33c is formed in relation to the rest of the binding base body 4.
13/32
10 to 18 an alternative embodiment of the power transmission mechanism between the rotary handle 14 and the holding element 9 with the hook 11 is shown. Only the differences from the embodiment according to FIGS. 1 to 7 will be discussed below.
In the embodiment of FIGS. 10 to 18, the holding element 9 is displaceably mounted on the binding base body 4 in the closed position against the force of a spring 34, for example a helical spring. For this purpose, the recess 18 of the holding element 9 on the side of the receptacle 8 has an open section 35 (i.e. not delimited by a stop surface of the holding element 9). The spring 34 is arranged between the holding element 9 and a spring abutment 36. A front end section 37 of the spring abutment 36 adjoins the open section 35 of the recess 18 of the holding element 9. In the closed position, the spring abutment 36 bears against the bulbous active section 16a of the eccentric disk 16 (cf. FIG. 11).
17, 18 shows the arrangement of the shoe 2 on the cross-country binding 1 in the untwisted state of the twist grip 14. By slanting the shoe 2 in the direction of arrow 38, a force is applied in the vertical direction according to arrow 39 to an oblique surface of the hook-shaped extensions 11, so that the holding element 9 is pressed forward against the action of the spring 34 (arrow 40). In this position, the hinge axis 2a of the shoe 2 can snap into the receptacle 8 of the holding device 7. The stored spring energy of the spring 34 presses the holding element 9 back in the direction of arrow 41 into the closed position. Advantageously, it is thus possible to get into the binding 1 without actuating the rotary handle 14.
14/32

权利要求:
Claims (15)
[1]
Claims:
1. cross-country or touring ski binding (1) for the articulated connection of a boot (2) with a ski (3),
with a binding base body (4), which has a contact surface (5a) for a sole (6) of the boot (2) and a ski support surface (5b) for at least indirect support on the ski (3),
- With a holding device (7) which has a receptacle (8) for the pivotable arrangement of the shoe (2) about a transverse axis of the binding base body (4) pivot axis (8a) and a holding element (9) for holding the shoe (3) of the receptacle (8), the holding element (9) being slidably mounted on the binding base body (4) between a closed position holding the shoe (2) on the receptacle (8) and an open position releasing the shoe (3),
- With an actuating element (13) having a rotary handle (14) for transferring the holding element (9) from the closed to the open position, characterized in that
- The actuating element (13) has a substantially disk-shaped, eccentrically mounted power transmission element (16) which is accommodated in a recess of the holding element (9) in order to implement the rotary movement of the rotary handle (14) in the displacement of the holding element (9), so that the holding element (9) can be transferred from the closed to the open position and vice versa by means of a rotary movement of the rotary handle (14).
[2]
2. Cross-country or touring ski binding (1) according to claim 1, characterized in that the recess (18) is formed in a force transmission section (19) of the holding element (9), which is preferably in one piece with a hook-like extensions via a connecting section (20) ( 11) having a holding section (10) of the holding element (9) is connected.
[3]
3. cross-country or touring ski binding (1) according to claim 2, characterized in that the hook-like extensions (11) in
15/32 slot-shaped recesses (27) are slidably received in the binding base body (4).
[4]
4. cross-country or touring ski binding (1) according to one of claims 1 to 3, characterized in that the force transmission element (16) receiving recess (18) is closed overleaf.
[5]
5. Cross-country skiing or touring ski binding (1) according to one of claims 1 to 3, characterized in that the recess (18) receiving the force transmission element (16) has an open section (35) on a side facing the receptacle (8).
[6]
6. cross-country or touring ski binding (1) according to claim 5, characterized in that the holding element (9) is displaceably mounted in the closed position against the force of a spring (34).
[7]
7. cross-country or touring ski binding (1) according to claim 5 or 6, characterized in that the spring (34) between the holding element (9) and a spring abutment (36) is arranged, wherein a front end portion (37) of the spring abutment (36 ) is arranged on the open section (35) of the recess (18) and, in the closed position, is connected to an active section (16a) of the essentially disk-shaped force transmission element (16).
[8]
8. cross-country or touring ski binding (1) according to one of claims 1 to 7, characterized in that the rotary handle (14) of the actuating element (13) has at least one locking element (30a, 30b), which in the closed position with a on the binding base body ( 4) trained locking element (31a, 31b) is engaged in a locking position.
[9]
9. cross-country or touring ski binding (1) according to claim 8, characterized in that the rotary handle (14) of the actuating element (13) has at least two spaced locking elements (30a, 30b), preferably the one locking element (30b) in one in the closed position of the front end section of the rotary handle (14) facing away from the receptacle (8) and the other latching element (30a) is provided on a rear end section of the rotary handle (14) facing the receptacle (8), and on the binding base body (4) correspond to this16 / 32 end locking elements (31a, 31b) are formed.
[10]
10. Cross-country or touring ski binding (1) according to claim 9, characterized in that a first connection plane (El) extends between first corresponding locking elements (30b, 31b) substantially along the contact surface (5a) and / or a second connection plane ( E2) extends essentially perpendicular to the contact surface (5) between second corresponding latching elements (30a, 31a).
[11]
11. Cross-country or touring ski binding (1) according to claim 8 to 10, characterized in that a respective locking groove (32a, 32b) and a spring-loaded locking lug (33a, 33b) are provided as corresponding locking elements (30a, 31a; 30b, 31b) are preferably the locking groove (32a, 32b) on the actuating element (13) and the locking lug (33a, 33b) on the binding base body (4).
[12]
12. Cross-country or touring ski binding (1) according to claim 11, characterized in that the latching nose (33a, 33b) is formed on an essentially undulating latching element (31a, 31b), which has an exemption (33c) on its longitudinal sides relative to the rest Binding base body (4) or other actuating element (13).
[13]
13. Cross-country or touring ski binding (1) according to one of claims 1 to 12, characterized in that a bearing element (28) is provided, the bearing blocks (29a) each having a recess (29b) for the pivotable arrangement of the boot (2) , wherein the recesses (29b) of the bearing blocks (29a) are arranged in the closed position adjacent to the receptacle (8) of the holding device (7).
[14]
14. cross-country or touring ski binding (1) according to claim 13, characterized in that the binding base body (4) and the bearing blocks (29a) are formed in one piece, the recesses (29b) of the bearing blocks (29a) through material recesses of the binding base body (4) are formed.
[15]
15. cross-country or touring ski set with a cross-country or touring ski binding (1) and with a pivotably mounted cross-country shoe or touring ski boot, characterized in that the cross-country or touring ski binding (1) according to one of the

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DE4424737C1|1996-01-25|Snow=board binding with boot drivers

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CH652610A5|1985-11-29|LOCKING DEVICE FOR A SAFETY SKI BINDING.

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EP0700311B1|1997-03-12|Ski binding device for securing a ski boot on a ski, in particular a touring or cross-country ski

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EP0157091B1|1990-03-14|Heel holder

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DE3227232C2|1984-11-08|Heel holder for a cross-country ski binding

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EP2907556B1|2017-08-30|Front jaw for a safety ski-binding

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DE2907364C2|1988-12-15|

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EP3781277B1|2021-11-10|Cross-country or touring binding

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EP3714952A1|2020-09-30|Braking device

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EP0985434B1|2003-11-26|Ski binding with diagonal release

同族专利:

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公开号 | 公开日

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US11020650B2|2021-06-01|

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EP3554656B1|2020-10-07|

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RU2720962C1|2020-05-15|

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WO2018112489A1|2018-06-28|

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AT519525B1|2019-01-15|

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EP3554656A1|2019-10-23|

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US20190381388A1|2019-12-19|

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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DE9422308U1|1993-09-14|1999-12-23|Rottefella A S Klokkarstua|Arrangement of a cross-country ski binding and a cross-country ski boot adapted to it|

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EP1559456A1|2004-01-30|2005-08-03|Salomon S.A.|Skibinding with integrated unlocking device|

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WO2012036562A1|2010-09-15|2012-03-22|Rottefella As|Touring or cross-country ski binding|

---

EP2786789A1|2013-04-03|2014-10-08|Skis Rossignol|Device for adjusting the position of the boot support pad in a ski binding system|

---

EP1261402A1|2000-03-07|2002-12-04|Rottefella AS|Ski binding|

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SI20621A|2000-07-17|2002-02-28|Alpina, Tovarna Obutve, D.D., Žiri|Security foot binding with shoe including adjustable lateral inclination for cross-country skiing|

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AT411018B|2001-04-11|2003-09-25|Fischer Gmbh|SKI BINDING FOR CROSS-COUNTRY SKIING AND TOURING SKIING|

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AT412191B|2002-04-11|2004-11-25|Fischer Gmbh|SKI BINDING, ESPECIALLY FOR CROSS-COUNTRY SKIING|

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ES1053061Y|2002-10-28|2003-06-16|Francis Raluy|FOOTWEAR WITH AUTOMATIC CLOSURE.|

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FR2856312B1|2003-06-18|2005-08-05|Salomon Sa|SWIVEL ARM FIXING DEVICE|

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FR2859110B1|2003-09-03|2006-04-07|Salomon Sa|BACKGROUND SKI SYSTEM WITH DIRECT SUPPORT SIDE SURFACE|

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FR2885532B1|2005-05-12|2007-08-03|Salomon Sa|ADJUSTABLE RECOVERY ENERGY FIXING DEVICE|

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AT502278B1|2005-07-29|2011-07-15|Fischer Gmbh|ARRANGEMENT CONSISTING OF A SKI AND A SKI BOOT|

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EP1749556A1|2005-08-04|2007-02-07|Sportissimo Sarl|Rollerski|

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DE102005056526A1|2005-11-25|2007-05-31|Marker Deutschland Gmbh|Ski binding has swivel up plate at front with bolt element behind or underneath front ski binding to secure binding for alpine use in addition to cross country use|

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FR2894836B1|2005-12-16|2008-02-22|Salomon Sa|BACKGROUND SKI SET AND DOWNHOLE SKI FIXING DEVICE|

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WO2012045329A1|2010-10-04|2012-04-12|Madshus As|Ski binding|

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FR2966747B1|2010-10-29|2013-01-11|Salomon Sas|SECURITY FASTENING FOR THE PRACTICE OF SKIING.|

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DE102012201812B4|2012-02-07|2016-10-13|Fritz Barthel|Front unit for a sliding board binding, touring binding and ski jumping binding|

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NO336788B1|2013-09-20|2015-11-02|Rottefella As|Ski binding for cross-country skiing or cross-country skiing|NO20170891A1|2017-05-30|2018-09-03|Rottefella As|Mounting mechanism for a locking member to be attached to a mounting plate on a cross-country ski|

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US11229831B2|2018-06-24|2022-01-25|Bishop Bindings Llc|Telemark ski binding assembly|

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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ATA51154/2016A|AT519525B1|2016-12-19|2016-12-19|Cross-country skiing or touring ski binding|ATA51154/2016A| AT519525B1|2016-12-19|2016-12-19|Cross-country skiing or touring ski binding|

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US16/471,418| US11020650B2|2016-12-19|2017-12-19|Cross-country or ski touring binding|

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EP17822123.0A| EP3554656B1|2016-12-19|2017-12-19|Cross-country or touring binding|

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RU2019122394A| RU2720962C1|2016-12-19|2017-12-19|Binding for racing or tourist skis|

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PCT/AT2017/060335| WO2018112489A1|2016-12-19|2017-12-19|Cross-country or ski touring binding|