JPH02164382A - Absorbing device for both shock - Google Patents

Abstract

PURPOSE: To guarantee relax of vertical and longitudinal shocks and vibrations, by anchoring screws to fix a binding to a ski board into a filler at least partially set on a dent placed in the ski board core part. CONSTITUTION: At a place at which a binding 1 is fixed on a ski board by screws, a dent for inserting is place in a core part 2 whose inside is filled to form, for instance, a filler 7 for buffering to be adhered on the dent part in a process following manufacture of a shock and vibration buffering material. Materials to be selected as the filler 7 for buffering is, for instance, polyisobutylene, etc. Screws to fix the binding 1 to a ski board are not anchored in the core part 2 and reinforcing materials but driven into the filler 7 for buffering. Consequently shocks and vibrations of the binding 1 to the ski board are not directory transmitted and inevitably pass through the filler 7 for buffering.

Description

DETAILED DESCRIPTION OF THE INVENTION This invention is suitable for alpine skiing or cross-country skiing.
Applies to both skis. This invention relates to a shock absorbing device interposed between a ski and a binding of a ski boot.

Shock absorbers are intended to improve the maneuverability and performance of skis, as well as to improve skier comfort. Without a shock absorber, the uneven surface of the slope, which becomes harder and harder as the snow is gradually compacted, would cause shocks and vibrations to the skis, and the resulting shocks and vibrations would be transmitted directly to the skier, damaging his bones, joints, and muscles. and a large external force is applied to the key, resulting in not only discomfort but also fatigue, which can cause an accident.Furthermore, an overly rigid connection between the skier and the ski is detrimental to good ski operation. . In particular, they stiffen the sliding area of the ski and create very direct contact, which causes the edges to be affected irregularly in the snow, resulting in unintended braking of the ski and release of the boot.

Several attempts have already been made to solve this problem. In particular, there is an increasing trend towards the use of elastic or even better viscoelastic materials arranged between the binding and the ski.

For example, French Patent Application No. 2,374,922 provides a damping block through which a screw for fixing the support plate of the binding to the ski passes. This block is resistant to some nasty external forces, but since the screws are anchored within the ski itself, external forces like shock and vibration will always pass through the screws, causing the anchorage to loosen. This tends to create play that can lead to ski deterioration.

In PCT International Application No. WO33103360,
A damping device consisting of one layer of elastomer and at least one metal layer is disposed between the upper surface of the ski and the binding. However, in this case as well, the same disadvantages as mentioned above arise, since the fixation to the ski is carried out by means of screws anchored in the ski.

Furthermore, this device operates in particular with longitudinal shear stresses and has no degrees of freedom either in the vertical or in the transverse direction.

The same drawbacks are found in the device proposed in French Patent Application No. 2,409,776.

In order to reduce the effects of loosening of screws and damage to skis caused by screws, it has become common practice to put adhesive into the holes to restore the waterproofness of the core of the ski and to prevent the screws from falling off. However, this approach only delays the occurrence of undesirable effects that are never eliminated but only temporarily hidden.

The invention provides a method for attaching screws directly to the core of the ski or to one of the mechanical components of the ski, while guaranteeing the damping of at least vertical and longitudinal shocks and vibrations occurring between the binding and the ski. It is an attempt to eliminate the above-mentioned harmful effects by proposing an anchorage method that allows anchoring to be avoided.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Figure 1 shows the binding shown by the board.
1 shows a cross section of a ski to which the present invention is applied at one fixing point. The ski has a bottom plate 3 and a side plate 4 as before.
, a reinforcing material M5, and a core portion 2 surrounded by them. The reinforcement layer 5 is covered with a protective and aesthetic layer 6.

At the point where the binding 1 is to be fixed to the ski by means of a screw, a fitting recess is arranged in the core 2, the inside of which is filled with a material, for example, in order to form a buffer filler 7 to be pasted into the recess. It is filled in a step subsequent to the manufacture of shock and vibration cushioning materials. The material selected as the buffer filler 7 is:
It is preferable to have viscoelasticity in order to absorb the energy that acts upon deformation. Therefore, the attenuation coefficient is clearly different from zero, and it is possible to increase it to a value of about 1.2. Depending on the desired effect, the hardness can be selected from 30 to 70 Shore A. Materials that enable the expected results, i.e. a significant cushioning effect without causing discomfort for good ski handling, are polymethanes, such as polyisoprene, polyisobutylene and polyisobutylene. You can choose from xylene.

According to the invention, the screws for fixing the binding 1 to the ski are screwed into the buffer filler 7 without any anchoring of these screws to the core 2 and reinforcement of the ski.

Therefore, the shocks and vibrations of the ski against the binding 1, or the shocks and vibrations of the binding 1 against the ski, are not directly transmitted, but inevitably pass through the buffer filling material 7.

Screwing can be done directly to the buffer filler 7, but it is also possible to use a metal cylindrical body with internal thread cutting or a metal cylindrical body with automatic female thread cutting, or in some cases, when screwing It is advantageous to have a metal cylinder 8 which is deformable. Advantageously, the integral connection of the buffer filler 7 and the tubular body 8 takes place by gluing or naturally during vulcanization of the buffer filler 7. The cylindrical body preferably has a retaining flange 80.

Also to make the buffer as effective as possible.

The binding 1 in the rest state must have sufficient play on the protective layer 6 to be able to absorb vertical external forces. The tubular body 8 therefore penetrates the reinforcing layer 5 and the protective layer 6 and defines the play 9 when at rest.
Must be long enough. Holes 10 are drilled in the reinforcing layer 5 and the protective layer 6 for this purpose. As shown in FIG. 2, these holes 10 are axially elongated and sufficiently large relative to the ski to allow longitudinal movement of the tube 8 in the event of a longitudinal impact. It has a width. This arrangement 1. makes it possible to relieve simple or complex vertical and longitudinal external forces, thus ensuring a high degree of comfort, especially on hard or uneven snow surfaces. Alternatively, as shown in FIG. 4, the hole 10 may be circular with a diameter significantly larger than the diameter of the tubular body 8, so that lateral impacts, i.e. transverse to the ski, It will also be possible to reduce the impact that is applied in this direction.

In the above, the buffer filler 7 for screwing is shown in an isolated and unobtrusive form. Alternatively, to further improve the skier's comfort, it is also possible to connect the cushioning material via the platform 11, as shown in FIGS. 5, 6 and 7. The platform, which is arranged on the upper reinforcing layer 5 of the ski, is represented in the form of a layer of damping material identical to the damping material 7 and is integral with it. Advantageously, this platform is covered with a protective layer made of hard material, and the tubular body 8 may be integrally connected.
Or they may not be connected. For the rest, what has already been said applies mutatis mutandis;
There is no problem in understanding this for the guardians.

As shown in FIGS. 6 and 7, the platform 11 localized in the binding area may be an integral part, but - is associated with the front toe piece; It is of course also possible to provide two separate platforms, the other relating to the heel piece.

Furthermore, instead of the platform 11, the cushioning material may have a transversely variable thickness and/or, for example, protrusions on the slope, in order to improve the skier's comfort and technique when performing the edging operation. For skiers who tend to ski through and/or force backwards, e.g. to improve heel comfort and to compensate for front-to-back balance deficiencies. It is also conceivable to have a variable thickness.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a ski to which a shock absorbing device according to the present invention is applied. FIG. 2 is a top view of the ski corresponding to FIG. 1. FIG. 3 is a cross-sectional view of a variant embodiment of FIG. 1 in which the cushioning filler is somewhat rounded and the fixing screws are visible; FIG. 4 is a top view corresponding to FIG. 3. FIG. 5 is a cross-sectional view of a ski showing another embodiment of the invention. FIG. 6 is a longitudinal cross-sectional view of the ski as viewed from a plane passing through the fixing screws. FIG. 7 shows an embodiment consistent with FIGS. 5 and 6 (
A perspective view of the fastener (fasteners omitted). [Explanation of symbols of main parts] 11 ・・・・・・・・・・・・Plastic fastener core reinforcing layer protection and aesthetic layer buffering filler (metal) Cylindrical body hole home (base) ) FIG, 1 FIG, 2 FIG, 3 FIG, 4

Claims (1)

Claims: 1. at least one cushioning filler (7) disposed at least partially in a recess disposed in the core (2) of the ski; ) A device for damping shocks and vibrations provided between a ski and a binding of a ski boot, characterized in that a screw for fixing the same is anchored in the buffer filling material. 2. Device according to claim 1, characterized in that the recess is provided in the core (2) when shaping the ski. 3. Device according to claim 2, characterized in that the buffer filler (7) is applied within the core (2). 4. Claim 1, 2 or 4, wherein the buffer filler (7) includes a metal cylindrical body (8) for accommodating a screw for fixing the fastener (1). Device according to 3. 5. When the device is at rest, the tubular body (8) is attached to the ski so that there is a vertical play (9) between the binding (1) and the protective layer (6). A passage (
5. The device according to claim 4, characterized in that it passes through (10). 6. The passage (10) provided in the reinforcing layer (5) and the protective layer (6) extends in the longitudinal direction as a whole;
6. Device according to claim 5, characterized in that the hole is elongated and is longer than the diameter of the tubular body (8). 7. A claim characterized in that the passage (10) provided in the reinforcing layer (5) and the protective layer (6) is a circular hole having a diameter larger than the diameter of the cylindrical body (8). Device according to item 5. 8. Device according to any one of claims 1 to 7, characterized in that it comprises a plurality of cushioning fillers (7) connected to each other via a platform (11) arranged on the upper surface of the ski. . 9. Device according to claim 8, characterized in that the cushioning filler (7) and the platform (11) constitute a single piece. 10. Device according to claim 8 or 9, characterized in that said platform (11) carries on its upper surface a hard layer (12). 11. Device according to claim 8, 9 or 10, characterized in that it comprises a single platform (11) for assembling the fastener (1). 12. Claim 8, 9 or 1, characterized in that it comprises two separate platforms (11) for each front and rear part of the binding (1).
Device by 0. 13. Claims 8 to 12 characterized in that the one or more platforms (11) have a transversely and/or longitudinally variable thickness.
A device according to any one of the following. 14. Claim 1, wherein the one or more buffer fillers (7) are made of a viscoelastic material.
A device according to any one of items 1 to 13. 15. Device according to claim 14, characterized in that the viscoelastic material has a damping coefficient of at most 1.2. 16. Claim 13, wherein the viscoelastic material has a hardness of 30 to 70 Shore A.
Device according to 14 or 15. 17. Claims 13 to 1, characterized in that the viscoelastic material is selected from polyurethane, polyisoprene, polyisobutylene, or polyisoxylane.
A device according to any one of item 6.