DE1578773C3 - Hold-down device for a releasing ski binding that can be swiveled in all directions - Google Patents

Description

matching release force no movements of the hold-down device (s) occur and, if this are possible, the release force once set is kept approximately constant. These demands should in addition, be possible with a low financial outlay. Furthermore, the aim is to that the bond to be developed works reliably and has a long service life.

This aim is achieved according to the invention in that the approximately round or polygonal shape and centrically or eccentrically connected to the holding-down part or to an intermediate piece Plate adapted to its circumferential contour and a breakthrough for the connection to the hold-down Part having housing is mounted and the spring force on a guided in the housing piston-like part acts with wholly or partially circumferential wedge surfaces at the edge edges the plate rests and presses it against the abutment of the housing. This type of construction brings the decisive factor The advantage is that in a force-displacement diagram, an angled hold-release characteristic comes about, for example from the zero point from approximately the upright force coordinate upwards follows, then turns approximately at right angles and parallel to the path coordinate and then after a certain Distance reached the predetermined trigger point. Accordingly, the ski boot is set up to a Release force kept motionless, so that safe ski guidance appears to be given. Is the When the release force is reached, the binding releases without exceeding the set values. This advantageous effect is due to the fact that the spring force is not central, but at the edge of the Plate becomes effective, so the forces of the older design to be set equal to transverse forces are excluded which cause the dangerous hardness or a floating ski guide. It can be noted that physical damage is largely excluded with the embodiment according to the invention, without affecting the feeling of safe driving. Also comes as beneficial added that the new design is uncomplicated and therefore guarantees a high level of functional reliability. That on Because of the simplicity also the prime costs move in a portable framework, is one A matter of course. It should also be mentioned that the design of the plate and its centric or eccentric connection to the hold-down device influences the behavior of the binding within wide limits without the need for additional and expensive parts. There is also a rotation lock can be achieved in a simple manner by designing the circumference of the plate.

In order to deepen the advantage of keeping the release values set constant, appears it is also expedient according to the invention that the part connected to the hold-down Plate is rounded at its edges and the wedge surfaces of the piston-like part at such an angle to the plane of the plate that the set one until the selected trigger point is reached Holding force remains roughly constant. The rounding in connection with the wedge surfaces increases the holding force actually kept constant, with the simplest possible means or measures. not It should not be mentioned that due to the constant forces there are signs of wear and tear on the individual Places do not occur, so the whole arrangement is also characterized by a long service life.

Further features and details of the invention emerge from the description of the drawing, exemplifying the invention; it shows

F i g. 1 shows a hold-down device that can be pivoted on all sides in a side view with an associated, im

ίο section shown housing,

F i g. 2 shows a cross-sectional view of the hold-down device with its housing,

F i g. 3 one opposite the F i g. 1 and 2 modified embodiment in sectional side view and 4 and 5 are sectional views of further embodiments.

In the F i g. 1 to 5 of the drawing, embodiments are shown which have cylindrical guides 40 in a housing 11, which in turn receive piston-like parts 16, 32. According to FIG. 1, part 32 is recessed at 98 in such a way that a circumferential wedge surface 105 results. In the front part of the guide 40 a collar or an abutment 104 is provided, against which or against which a plate 100 comes to rest, the edges of which are rounded and which carries the holding-down part 6 in its center. The part 6 is connected to a holding jaw 4. The housing 11 has a recess 96, as shown in FIG. 2 shows. The recess 96 has a horizontal surface 106 which cooperates with a correspondingly designed surface on the part 6 in such a way that the plate 100, the part 6 and the holding jaws 4 are secured against rotation.

The part 32 is loaded adjustable with a spring 38, so that the plate 100 against the collar 104 of the Housing 11 is pressed. When an overload occurs, the holding-down part 6 or the Tilt plate 100 not only backwards, but also sideways, so that part 6 with jaws 4 in the event of a twisting fall from its target position while pivoting to the side and in the event of a backward fall can move while pivoting up into a release position.

In FIG. 3 (cf. also FIG. 4) another anti-rotation device of the holding jaw 4 is shown. there a spring-loaded ball 107 is used, which is inserted into a corresponding recess in the plate 100 intervenes. The F i g. 4 also has a release lever 27 recognize with cams 108, with which the plate 100 can be tilted against the force of the spring 38, so that the binding can be opened in a simple manner, with such a lever 27 both in the heel area as well as in the toe area.

Depending on the design of the plate 100 and the selected wedge angle, the tripping characteristic can be such be chosen so that no swiveling is possible until a predetermined release force is reached of the holding jaw 4 occurs and that after reaching the predetermined force of the holding jaws 4 approximately swings out while maintaining the predetermined level of the release force. Still, an approximate Angled diagram of the release force can be achieved, with the maximum release force below Guarantee of a certain spring deflection, which also corresponds to the formation of the wedge angle is selectable, with constant force at

5 6

When bumps occur, the ski boot rest again in the corresponding surface 110 of the housing 11 and pushes back the starting position and only after it has been used as a position lock in the operating state does this force allow complete release. With the help of a pivotable lever 111, which The height of the release force is below the z. B. is operated with a finger or with a ski pole-breaking force of the bones or the tendons of the ski 5 bar, the ski binding according to the invention can be in rers. As a result, this training can also be opened in a simple manner.
Occurrence of bumps a safe return depending on the design of the plate 100 as a round part of the binding achieved, while on the other hand an over- or three-, four- or polygonal part can enter the set force even with a very special due to the eccentric arrangement of part 6 large spring travel or deflection path the holding io on the plate 100 a change in the height of the jaws 4 with certainty. Release force can be achieved. So it is B. conceivable, According to F i g. 5, the part 16 has a wedge-shaped that the release force in the horizontal direction low or similar surface 60, which, depending on whether it can be held for riger than the release force, the plate 100 is a circular or square shape to pivot in the vertical direction. This arrangement is a simple separation of forces and can serve as a rotation lock at the same time. At the aims, depending on the choice of the rounding angle, the holding-down part 6 connects to the front eccentricity and the wedge angle each desired end of an intermediate piece 109 , which appears possible via a curve, in particular those which toothing 53 carries the holding jaws 4 . The underside a maximum of safety for the skier and the intermediate piece 109 can correspond to one without affecting the sporty driving.

1 sheet of drawings

Claims (7)

or charged directly in the sense of its swinging open. Patent claims: 1. All-round swiveling hold-down device for a releasing ski binding for the tip or Heel area, with the one that co-operates with the sole edge of the ski boot and that holds it down Part at the end remote from the edge of the sole with a fixed connection to a plate stands, which is under the action of an adjustable spring against a to. Plate plane essentially parallel abutment comes to rest and on this against rotation in the plane of the plate is secured, characterized in that the approximately round or polygonal shaped and centrically or eccentrically on the holding-down part (6) or on an intermediate piece (109) -connected Plate (100) adapted to its circumferential contour and an opening (96) for the connection to the holding-down part (6) having housing (11) is mounted and the spring force (see. 38) on a in the housing as (11) guided piston-like part (16, 32) acts with the fully or partially encircling Wedge surfaces (cf. 60, 105) rests against the marginal edges of the plate (100) and these against the abutment (104) of the housing (11) presses. 2. Hold-down device according to claim 1, characterized in that with the hold-down Part (6) connected plate (100) is rounded at its edges and the wedge surfaces (see. 60, 105) of the piston-like part (16, 32) extend at such an angle to the plane of the plate (100), that until the selected trigger point is reached, the set holding force is approximately remains constant. 3. Hold-down device according to claims 1 and 2, characterized in that the abutment (104) surrounded opening (96) of the housing (11) a stop limit of the out of the housing (11) protruding hold-down device (6) forms. 4. Hold-down device according to claims 1 to 3, characterized in that to prevent rotation a round plate (100) the opening (96) of the housing (11) a lower flat (106) has, on which a corresponding surface of the holding-down part (6) comes to rest. 5. Hold-down device according to claims 1 to 3, characterized in that the rotation lock a round plate (100) with the help of a lower locking ball (107), which is in a recess the plate (100) is incident. 6. Hold-down device according to claims 1 to 3, characterized in that for rotation lock the plate (100) of the holding-down part (6) or a part of the same outside the housing (11) has a lower flat area which rests snugly on a mating surface (110). 7. hold-down device according to claims 1 to 6, characterized in that in the abutment (104) of the housing (11) or in an anti-rotation surface (HO) a pivotably mounted lever (108, 111) is let in, which when it is actuated indirectly the hold-down part (6) The invention relates to a hold-down device of a releasing ski binding that can be pivoted in all directions for the toe or heel area, where the one interacting with the sole edge of the ski boot hold-down part at the end remote from the sole edge with a plate in Fixed connection is under the action of an adjustable spring against a to the plate plane in substantial parallel abutment comes to rest and is secured on this against rotation in the plane of the plate. Known hold-down devices of this type can actually be pivoted in all directions, if all-sidedness is understood to mean movements upwards and to the sides. The adjustable spring provided for each hold-down device acts via a pressure bolt (a central needle pin on the plate, so that when the ski binding is clipped in, the pressure force runs in a straight line to the point of application on the ski boot The moment when, for example, lateral forces or upward forces occur on the hold-down device in the event of a fall afflicted with serious deficiencies, since the effective lever arm changes when the force flow is kinked, i.e. once it has kinked, the holding force of the hold-down device drops very quickly or suddenly, especially since the transverse forces rise steadily or abruptly when the line of force is kinked This behavior each individually The hold-down means that the binding is released either with every sharper ski guidance or other loads, or, if the spring has been set to be hard (j, is so firm that fractures or tendon tears appear inevitable. In other words, this means that you can only choose between a dangerous and a so-called "floating" or too loose binding, that is, there are circumstances that make the binding more or less unusable, at least from the point of view of security. If you wanted to plot the behavior of the older bond in a force-displacement diagram, the result would be a characteristic curve that somehow ran between the force-displacement coordinates that are perpendicular to one another, whereby the trigger point could possibly be changed. Such ) conditions are useless or extremely dangerous for the skier, so that remedial action is urgently needed. In contrast, the object of the invention is to provide a hold-down device that can be pivoted in all directions To create a triggering ski binding that ensures safe ski guidance, i.e. sufficient connection strength between the ski boot and manufactures skis without creating dangerous situations for the skier. This means that up to achieve a predetermined or preventive