DE1179141B - Safety toe piece for ski bindings - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: A 63 c

Number:
File number:
Registration date:
Display day:

German KL: 77 b -9/08

1179 141
M53058Ic / 77b
May 30, 1962
October 1, 1964

The invention relates to a device that swings out to the side when excessive torque occurs Safety toe piece for ski bindings, in which at least one swivel link around one with the ski firmly connected to the ski surface perpendicular bearing pin is pivotable and preferably at least one sole holder member on the swivel member and overlaps the front edge of the sole is pivotably articulated by means of a hinge pin perpendicular to the ski surface, with resilient Means hold the pivot member and / or the sole holder member in their normal position and after a Return the deflection to this. Such safety jaws are both in different designs known with and without pivotability of the sole holder member relative to the pivot member. To return to the central position, upright leaf springs attached to the ski are known on the one hand, which with their curved free end encompass the safety jaw from the front, and on the other hand Spring-loaded balls or pistons with locking sockets or perforations in the pivot pin or of the sole holder member cooperate, the helical spring used being parallel to the ski surface Acts direction and is housed in a corresponding bore of the pivot member. the mentioned upright leaf spring allows only with relatively minor deflections of the Swivel member from its normal position an automatic return. The other known embodiment allows a return even when deflected by a relatively large pivot angle to, but has a long overall length because of the horizontally arranged helical springs. In addition, in this embodiment the front jaw is special in its normal position Unstable stored because in this position the resistance of the spring against deflection of the jaw is lowest and only increases progressively with increasing deflection.

The invention is based on the object, in the case of a safety toe piece, of the type described at the outset Kind of the automatic return to the normal position while avoiding the disadvantages of the to enable known devices. The automatic return of the swivel link and, if necessary the sole holder member has the advantage that the toe piece is always after a Lintel sets in the position of use and therefore resetting by hand is unnecessary. Further a complete release of the foot is prevented if brief lateral impacts occur, Safety toe piece for ski bindings

Applicant:
Hannes Marker,

Garmisch-PartenkiEchen, Alpspitzstr. 37

Named as inventor:
ίο Hannes Marker, Garmisch-Partenkirchen

which lead to a slight deflection of the jaw, but not to excessive torsional stress based on the leg axis. Such lateral impacts are absorbed elastically, and the The toe presses the foot back into the middle position so that a fall is avoided or in any case no re-fastening of the foot in the binding is necessary.

The above-described disadvantages of the known bindings are with a safety toe piece the type mentioned according to the invention avoided in that the pivot member and / or the Sole holder member has at least one flat inclined surface inclined to the respective articulation axis, which is inclined in the direction towards an at the same angle to the pivot axis, compared to the Bolt non-rotatable counter surface is under spring pressure, the inclined surfaces against the spring force are movable relative to each other in the axial direction. This makes it possible, even with very extensive Deflection of the swivel and / or sole holder member an automatic return to the To ensure starting position without increasing the overall length of the jaw. By an empirically determined optimal choice of the angle of inclination of the inclined surfaces to the pivot axis the resistance of the binding that has to be overcome when the toe of the shoe is fully swung out can be used in the best possible way can be determined in its force sequence, as previously neither by using simple locking mechanisms only by using a piston under spring action or the like. Possible was.

In a further embodiment of the invention, two can be roof-shaped at an obtuse angle mutually inclined surfaces cooperate with keyways, the flanks of which below are inclined to each other at the same angle, whereby the lines of intersection of the inclined surfaces

409 689/14

cut the steering axle. The holding the pivot member and / or sole holder member in its central position Swivel surfaces can be formed on the component carrying the bearing or hinge pin, and over the pivot member or sole holder member upwardly protruding part of the bolt can be of a Be enclosed spring device, which is against the top of the pivot member or sole holder member and an abutment, preferably adjustable in the axial direction, at the upper end of the bolt supports. This abutment can consist of a knurled nut that can be screwed onto the bolt or consist of a cam lever fixed axially immovably on the bolt, its in different Distances from the fulcrum arranged pressure surfaces with the upper end of the spring device cooperate. A spring-loaded locking ball device can be attached to the pivot member and / or the sole holder member be provided, which in the normal position of the spring jaw in a locking socket of the base plate or the swivel member engages. This ensures a very good stability of the toe piece in the Middle position reached, so that no pivoting even if the binding is clumsy baking is possible. Through the selectable setting of the spring pressure acting on the locking ball the limit torque can be precisely determined, until it is exceeded, a pivoting action can take place baking is not possible, while on the other hand even after this limit torque is exceeded and swiveling out the jaw ensures automatic return to the central position remain. For the various spring devices of the toe piece according to the invention can optionally Helical springs, rubber springs or disk spring packages are used.

In a modification of the safety toe piece according to the invention, the flat inclined surfaces designed according to an empirically determined law for the force flow during a fall Curved surfaces be replaced. This allows the course of the moment of resistance when pivoting out of baking in any way in advance. Another modification of the The front jaw according to the invention can each have one of the interacting inclined or curved surfaces by an axially displaceable against adjustable spring resistance, in one of the relative to each other pivotable components mounted element, preferably a pin, a ball or roller, replaced. Here, the requirements for manufacturing precision are not as high as when exactly in one another suitable inclined or curved surfaces must be produced.

The invention is explained in more detail in the description with reference to the drawing, in which exemplary embodiments are shown. In the drawing shows

F i g. 1 a first embodiment of the toe piece according to the invention in longitudinal section,

F i g. 2 the associated sole holder link in plan view,

F i g. 3 a second embodiment in longitudinal section,

F i g. 4 the base plate of the first embodiment in plan view,

F i g. 5 shows a modified adjustment mechanism for the other exemplary embodiments the spring pressure in side view and

F i g. 6 shows the same adjustment mechanism from a different perspective.

In the embodiment according to FIG. 1 is on the ski 1 with at least two not shown Screws fastened a base plate 2 to which a bearing pin 3 is riveted. On this bearing pin 3, the pivot member 4 is pivotably mounted. It is free against 'n axial direction on the bolt 3 the force of the helical spring 5 movable, whose

ίο spring resistance through the on a screw thread of the bolt 3 screwed helical nut 6 is adjustable. As can be seen from Fig. 1, the Upper side of the base plate 2 has two inwardly inclined flat inclined surfaces, which in one direction to the longitudinal direction of the ski vertical, the axis of the bolt 3 intersecting line 7 under a very blunt / en Collide angles. The top of the base plate 2 is thus in the manner of a very shallow keyway designed. The underside of the pivot member 4 engages around the circular base plate with a circular one Recess 8 and is on its underside in the area of this recess 8 with a roof against each other provided inclined surfaces that fit exactly into the inclined surfaces of the base plate 2.

In its foremost part, the pivot member 4 is provided with a bore 9, one of which is under pressure the spring 10 receives a standing detent ball 11, the spring pressure being adjustable by means of the knurled screw 12 is. When the front jaw is in its central position, the locking ball 11 is in a latching pan 13 which is provided on a shoulder of the base plate 2. Furthermore, the base plate 2, as can be seen from Fig. 4, the eyes 14, by means of which it can be attached to the ski with the help of screws.

In the rear part of the pivot member 4, the hinge pin 15 is riveted to the pivotable on it and axially freely movable sole holder member 16 carries the shoe sole leading edge with its angular lugs 17 embraces while the tabs 18 extend over the front edge of the shoe sole. That The pivot member 4 is overlapped at 19 by a circular recess 20 of the sole holder member 16, and the top of the pivot member 4 and the bottom of the sole holder member 16 are in this Provide area in the same way with cooperating and interlocking sloping surfaces as the base plate 2 and the pivot member 4. The sole holder 16 is by the spring 21 against the Oblique surfaces of the pivot member 4 pressed, the spring 21 being supported against the knurled nut 22, which can be screwed onto the thread of the hinge pin 15.

In its front part, the sole holder member 16 is provided with a bore 23 in which a locking ball 24 is guided, which is under the pressure of the spring 26 adjustable by means of the knurled screw 25. If the foot encompassed by the angled extensions 17 of the sole holder member 16 is subjected to excessive torque on that the locking balls 11 and 24 against the resistance of the springs 10 and 26 from their locking pans leads out, the roof-shaped JJunterflächen of the pivot member 4 and of the twist Sole holder member 16 on the keyway-shaped surfaces of the base plate 2 and the pivot member 4, wherein the pivot member 4 and the sole holder member 16 against the increasing resistance of Springs 5 and 21 up on bolts 3 and 15

move. The pivot member 4 is in the direction of the torsional force and the Bearing pin 3 is pivoted, while the sole holder member 16 is pivoted around the hinge pin in the opposite direction 15 is pivoted so that the foot does not counteract the action of the pull cable, not shown must be pushed back to the rear. Since the springs 5 and 21 strive to move the pivot member 4 and to push the sole retainer member 16 back to its deepest position in the keyway surfaces Pivoting member 4 and sole holder member 16 returned to the central position as soon as the torsional moment is less than the spring resistance of the springs 5 and 21. In this position, the Locking balls 11 and 24 back into their locking pans, and the binding is again in their Position of use.

While in the embodiment according to FIG. 1 pivot member 4 and sole holder member 16 in their normal position be returned if the deflection does not reach an angle of 90 °, occurs the embodiment according to FIG. 3 the automatic return up to a deflection angle of 180 ° a. The interacting surfaces of the base plate 2 and the pivot member 4 on the one hand and the The pivot member 4 and the SoMenhaltergliedes 16 on the other hand are here as an uninterrupted oblique Levels executed. Apart from this, the embodiment according to FIG. 3 of those according to FIG. 1.

To change the resistance of the springs 5 and 21, instead of the knurled nuts 6 and 22 other adjustment devices are also used, one of which is a particularly expedient embodiment in Figs. 5 and 6 is illustrated. Here is at the flattened end 27 of the pin 3, a cam lever 29 is mounted pivotably about the axis 28. He points them out at different distances of the pivot axis 28 arranged pressure surfaces 30, 31 and 32, which optionally to rest against the plate-shaped spring abutment 33 can be brought, so that a very rapid change in the Bias of the spring 5 is possible in one of three selectable sizes. For easier handling is the cam lever 29 is provided with a corrugation 34 on its rounded rear surface. The springs 5, 10, 21 and 26 can also be replaced by rubber springs or plate spring assemblies.

Various modifications, not shown, are also possible within the scope of the inventive concept. For example, instead of the flat inclined surfaces as shown in FIGS. 1 and 3 shown are, cooperating curved cam surfaces are also used, their design according to According to an empirical law, it can be determined which is the best for the force flow during a fall is equivalent to. Furthermore, instead of the inclined surfaces or cam surfaces lying one inside the other, each on one of the parts that can be pivoted relative to one another is an adjustable spring action, in axially displaceable element, for example a ball, a pin or a roller, is provided that slides on the inclined or cam surface of the other component when it swings out and is pushed back by this against the spring resistance. In the middle position, this element could be in a locking socket provided in the inclined or cam surface snap into place, so that an additional Ball locking device would not be required. In addition, the safety front jaw according to the invention also be made much simpler than in the embodiments shown in the drawing the case is. For example, a sole holder member 16 can be dispensed with if the rear surface of the pivot member 4 is convex to push back the foot when Avoid swiveling out. However, this must be a much poorer support of the foot in Be bought than they are by the shown in the drawing, according to the double pivot principle built-up toe piece is reached. The toe piece according to the invention shown in the drawing has an optimal adjustability because of the resistance that occurs when swiveling out on the two axes 3 and 15 can be set independently of each other and because also one different setting of the locking pressure of the locking balls 11 and 24 is possible. The according to the invention The front jaw can be made with a very low overall height and very compact and therefore offers little resistance when driving. On the other hand, it is special because of its low and compact design Resistant to violent impact, for example if the skis come loose on some kind of fall Impact objects.

Claims (11)

Patent claims: 1. If excessive torque occurs, the safety toe piece swings out to the side for ski bindings, in which at least one swivel member is attached to the ski and is perpendicular to the ski surface Bearing bolt is pivotable and preferably at least one the sole word edge overlapping Sole holder member on the pivot member by means of a hinge pin perpendicular to the ski surface is pivotably articulated, resilient means holding the pivot member and / or the sole holder member in their normal position and lead back into this after a deflection, characterized in that the Pivoting member (4) and / or the sole holder member (16) at least one to the respective articulation axis (3, 15) has inclined flat inclined surface, which in the direction towards one below the same Angle to the pivot axis inclined, opposite to the bolt non-rotatable counter surface under spring pressure stands, the inclined surfaces against the spring force relative to one another in the axial direction are movable. 2. toe piece according to claim 1, characterized in that that in each case two inclined surfaces, which are inclined towards each other in a roof-like manner at an obtuse angle, cooperate with keyways, the flanks of which are inclined towards each other at the same angle, whereby the cutting lines (7) of the inclined surfaces intersect the pivot axis (3). 3. Toe piece according to claim 1 or 2, characterized in that the pivot member (4) and / or sole holder member (16) in its central position holding inclined surfaces on the the bearing or hinge pin (3, 15) supporting component (2, 4) are formed and that the over the pivot member or sole holder member upwardly protruding part of the bolt from a spring device (5, 21) is enclosed, which is against the top of the pivot member or sole holder member and an abutment (6, 22, 33) on the preferably adjustable in the axial direction supports the upper end of the bolt. 4. Toe piece according to claim 3, characterized in that the abutment consists of a knurled nut (6, 22) which can be screwed onto the bolt (3, 15). 5. toe piece according to claim 3, characterized ge ίο indicates that the abutment consists of a fixed axially immovable on the bolt (3) Cam lever (29) consists of which are arranged at different distances from the pivot point (28) Pressure surfaces (30, 31, 32) interact with the upper end of the spring device (S). 6. Toe piece according to one of claims 1 to 5, characterized in that the pivot member (4) and / or sole holder member (16) a spring-loaded locking ball device (11, 24) is provided is that in the normal position of the front jaw in a locking pan (13) of the base plate or the swivel member engages. 7. toe piece according to one of claims 1 to 6, characterized in that the spring devices (5, 10, 21, 26) are used by helical springs. 8. toe piece according to one of claims 1 to 6, characterized in that the spring devices Serve rubber springs. 9. Toe piece according to one of claims 1 to 6, characterized in that the spring devices Serve disc spring assemblies. 10. Modification of the safety toe piece according to one of claims 1 to 9, characterized in that that the flat inclined surfaces by according to an empirically determined law Curved surfaces designed for the force flow in the event of a fall have been replaced. 11. Modification of the safety toe piece according to one of claims 1 to 10, characterized in that that in each case one of the cooperating inclined or curved surfaces can be axially displaced by an adjustable spring resistance, element mounted in one of the components which can be pivoted relative to one another, preferably a pen, ball or roller is replaced. 1 sheet of drawings 409 689/14 9.64 © Bundesdruckerei Berlin