DE1801880A1 - Spring locking - Google Patents

Description

Wiener Metallwarenfabrik Smolka & Qo. Vienna 23) Wall, Lindauergasse 9

Spring locking

The invention relates to a spring latch for safety ski bindings where the latching of a hasty element on a counter-locking part causing force the spring can be adjusted by means of an actuator *

In known spring latches of this type is generally a screw serving as a spring abutment is provided for stepless adjustment of the bast force. Will this If the screw is twisted, the spring will move a certain amount compressed or elongated. The path of the spring and the path of the screw in the axial direction are the same here long. It is not very easy to determine which distance the screw has covered, even when reading in Connection with the screw a mark is provided, which in the direction of movement of the screw along a scale slides. In doing so, however, the brand only ever moves over

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the relatively small path that the screw traverses when changing the locking pressure in the axial direction. This requires a narrow scale division and difficult reading. A mechanism must also be provided which converts the rotational and axial movement of the screw into a pure longitudinal movement of the display part, which complicates the ski binding. After all, turning the screw ψ usually requires a tool that is not always available or that is difficult to insert into the head slot of the screw if the binding is iced up.

The invention has now set itself the task of eliminating these disadvantages and creating a spring catch, whose locking pressure can be adjusted easily and without tools and whose Setting can be displayed easily. This is achieved in that the actuator is wedge-shaped and in a Guide is longitudinally displaceable.

With this design of the spring latching, the latching pressure can be changed by simply moving the actuator longitudinally without tools. The postponement can be indicated directly by a mark associated with the actuator. The brand's path along the associated scale, which corresponds to a certain change in the detent pressure, is dependent on the wedge inclination. The flatter the wedge inclination, the greater the travel of the mark with a certain change in detent pressure.

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By appropriate selection of the wedge inclination, it is easily possible to determine the display travel of the mark relative to the spring travel to enlarge and thus to come to an easily readable scale

In a preferred embodiment of the spring latching according to the invention it is provided that the actuator has a threaded hole has, in which a rotatable, but non-displaceably arranged in the associated ski binding part Screw engages. In this case, it is true that an adjustment part needs to be rotated again; but it turns out the advantage that the wedge-shaped actuator can be moved particularly sensitively.

A particularly simple design results when that Actuator is arranged on the side of the spring facing away from the latching point, so that the spring on the one hand on the locking element and, on the other hand, indirectly or directly supported on the support part, the actuator being transverse to the direction of the spring force is adjustable »In this case, the actuator also serves as a support part to absorb the reaction force of the detent spring,

If particularly small structural dimensions are desired in the direction of the spring force ¹ , it is advantageous if the actuator itself carries a locking socket which is elongated and runs along the wedge-shaped member in the direction of displacement. In this case the locking

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pan, in which the spring-loaded locking element engages, and the actuator is structurally combined. This occurs to me Component that would otherwise be required, gone «

The elongated locking socket can be inclined in the displacement direction of the actuator itself. aside from that the locking pan can be transversely to the direction of displacement of the actuator over its length differently inclined side walls exhibit. The change in the hasty force when moving the actuator then results from a Combination effect, namely once through the inclination of the Locking pan and on the other hand by the changing inclination of the side walls, over which the hasty element when disengaged must wander away. This combination allows a very sensitive adjustment of the locking force curve to achieve the needs.

Further details and advantages of the invention emerge from the following description of exemplary embodiments in conjunction with the drawing. Show it %

Fig. 1 is a longitudinal section,
Fig. 2 is a cross section, and

Fig. 3 is a plan view of a first embodiment of a spring according to the invention verrastiingf

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Jig. 4- a longitudinal section, and

Jig. 5 shows a front view of a further embodiment.

Fig. 6 is a longitudinal section, and

7 shows a cross section through a pivotable front jaw a ski binding which is provided with a spring catch according to the invention and

Fig. 8 is a plan view, and

9 shows an end view of a bast pan of a spring device according to the invention.

According to FIGS. 1 to 3, a spring 5 is arranged in a ski binding part 11, which is on the one hand against a Hasty element, for example against a ball or against a lever, supported * On the other hand, the spring 5 pushes in Sleeve-shaped spring abutment 12 against a wedge-shaped actuator 1. This is longitudinally displaceable in a guide 2 of the ski binding part 11. This points to the shift wedge-shaped actuator 1 has a threaded hole 3 in which a screw 4 engages. The screw 4 can be rotated but immovably mounted in the ski binding part 11 or in a part firmly connected to the latter. On his On the upper side (see in particular FIG. 3), the actuator 1 has a scale which is provided on the ski binding part 11 Brand 10 is assigned. If the screw 4 is rotated, the wedge-shaped actuator 1 moves transversely to Direction of force of the spring 5 and presses the spring 5 or more

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less together. As can be seen from the drawing, caused a movement of the actuator 1 over a certain Away a movement of the spring, which is only a fraction of that which the actuator 1 has performed. It

This results in a clearly visible reading path of the ι
Scale opposite the mark 10. For further fine division

the movement reading can be the screw head 13 a scale P can be assigned with a marking, so that the scale provided on the actuator 1 can be read off again, subdivided.

According to FIGS. 4 and 5, the E'eder 5 presses a latching element 6 in a locking socket 7 · This locking socket is on the wedge-shaped actuator 1 itself and in its displacement direction inclined accordingly. For adjustment, an eccentric 8 is provided, which at a Rotation moves the actuator 1. So that the wedge-shaped member is always in contact with the eccentric disk 8 a spring 9 is provided. This is relatively weak. Their strength is just so great that they can be put on safely the actuator is given on the eccentric 8; this spring does not have any other function. The eccentric disc 8 is frictionally mounted so that it stops in every position that is set and not by the spring 9 or by. Automatically adjustable joints is. A handle 14 can be provided for easier handling.

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The Pig. 6 and 7 show a swivel jaw 11 of a Ski binding around an axis 15 when the safety release can pivot. The force at which the jaw releases the shoe is achieved by the latching or by the Determines the force of the locking spring. This latching can can now be adjusted again by means of the wedge-shaped actuator 1. This is in a tour 2, which through a plate 16 is covered, mounted displaceably. The screw 4 is used to move it the upper spring abutment 12 moves more or less against the spring 5 and this is more or less compressed.

A change in the release force is given according to FIGS. 8 and 9 not only in that the elongated locking socket 7 is wedge-shaped, but also in that the inclination of the locking socket is transverse to the direction of displacement of the actuator 1 is different in its course. Thus, for example, in the left area of FIG. 8, the Spring is not only less tensioned, but also the release force is reduced by the fact that the inclination of the locking pan is much lower here. Of course, this locking socket 7 is arranged opposite the locking element 6 and not on the side of the spring facing away from the locking point 5

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The invention is not restricted to the exemplary embodiments shown. The invention can be used for heel hold-downs and toe piece can be used equally. The actuator 1 does not have to act directly on the spring abutment or the spring act. An intermediate gear, for example a pivotably mounted one, can also be used Transmission lever) between the actuator and the spring or their abutment be switched on. In this case, the actuator does not necessarily need to be transverse to the direction of the spring force to be movable. The only important thing is that by moving the actuator, the spring is or is relaxed.

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Claims (1)

α t »t ν * κ b» ι Uv · Κ - ν V. k. ν ·· ! Patent claims 1. Federverraatung for safety ski bindings, in which the force of the spring causing the locking of a bast element on a counter-locking part by means of an actuator is adjustable, characterized in that the actuator (1) is wedge-shaped and in one Guide (2) is longitudinally displaceable. 2. Tedertferrastung according to claim 1, characterized gekennzeiohnet that the actuator (1) has a threaded hole (3) into which a rotatable, but the associated ski binding part engages immovably arranged screw (4). 3 · Pederverraetung according to claims 1 and 2, characterized in that the actuator (1) is on the side facing away from the latching point the spring (5) is arranged so that the spring on the one hand on the locking element (16) and on the other hand indirectly or is supported directly on the support part (1), the actuator is adjustable transversely to the direction of the spring force. 909834/0875 ■ * - 4. Fe derverr astung according to claim 1, characterized in that the actuator (1) itself a Hastelanne (7) carries, which is elongated and along the actuator in the direction of displacement runs. ^ 5 · Spring locking according to claim 4, characterized in that the elongated bast pan (7) ; is inclined in the direction of displacement of the actuator (1). 6. Spring locking according to claims 4 and 5 »because you r ο h characterized in that the fiaitpf anne (7) transversely for Versohleberlohtung the actuator (1) over its length differently inclined side walls aufwelit. ^ 7 spring latching according to claim 1, characterized in that g β - indicates that the actuator (1) on the one hand on a cam or eccentric disk (8) and preferably on the other hand rests against a teder (9). ι 8. Spring latching after at least one or more of the preceding claims, characterized marked θ i ο hn e t that in a known manner scales and Marks (10) are provided which are arranged on the actuator (1) and on a part (11) which is fixed relative to this. 9098 3 4/0875.